WPC[? P]n6c@u]NAdqWkKHcQ_݈Lk㧋B譤C5BO69hyD붨q/+ ) ؜xX*Q@`K ݽ!$"mxXRH|n0s HXDҾPRm; {Y[e:BFпõha5nY:oo"Ű #Yi\>ދ4ʐo^iV {vRTJDT[A~ON5-A-qCŘ# UN % 0( UN' wu 4y  : 0DUHUX,b 0DNUN^ ".Z0 mUB 0~aUN}ZKJZIZ_ PL  0NU ^U> ^?Z j Ja P X \S XfFmLTXST ^ ^] N X ZaZJT_ ^ X TiZTPkZJ Z_ \ R! `g!g!N!\" Tq"P" T# Ti#P#P $ L]$ J$ X$TK%F%F%H+& ds&s&Z&Z1'J'Z'Z/(J( b( b5) Z)Z)ZK*J*\* bK+ T+ Z,^[,P,V -J_-T- b-^_. d.`!/ 8/4/Z/TG0 \0X0ZO1F1X1XG2 b2 ^3 T_3^3P4Za4 `4 X5\s5T5Z#6T}6f6F77L}7J7 ^8 Xq8Z8T#9Zw9T9f%:F:L: ^;Z{; ^;Z3<X< ^<ZC=C=C=^=^=VY>Y> X>T?HP LaserJet 4000 Series PCL$,,,,$0(hH  Z 6Times New Roman RegularX($ 6Times New Roman Regularb83|x 0  '  _ XXXX Q^X XCommerceControlList@BBBSupplementNo.1toPart77466(#Category6"page  1  #T  Q^+##XXT J#(3$ !  +ON  0Times New Roman Bold $Tahoma(3$ !  $(hH  Z 6Times New Roman RegularjN9s 56E001 Technology according to the GeneralU\  `*Times New RomanTTV& 8Document[8]Document Style0..8` ..`  excimer(9 Z6Times New Roman Regular v  )  _ T XXExportAdministrationRegulations#XXT .#%G%XX @*#XX%%G#T XXԈtt8(# October_14,_Ԁ2008#XXT # 6E002 Technology according to the General6E201 Technology according to the6E001 Technology according to the General   6E002 Technology according to the General6A991 Marine or terrestrial acoustic6A991 Marine or terrestrial acoustic(O$ a.3.a. Non- space-qualified focal plane\  `&Times New Roman a.2. Image intensifier tubes and specially a.2. Image intensifier tubes and specially a.1. Space-qualified solid-state detectors, as b.2.b.1. Space-qualified; or d.1. Space-qualified cryocoolers;6A102 Radiation hardened detectors, other6A202 Photomultiplier tubes having both of6A992 Optical Sensors, not controlled by a.1. Space-qualified solid-state detectors, as b.2.b.1. Space-qualified; or d.1. Space-qualified cryocoolers;6A102 Radiation hardened detectors, other6A202 Photomultiplier tubes having both of6A992 Optical Sensors, not controlled by6E001 Technology according to the General6E002 Technology according to the General6E201 Technology according to the6A203 Cameras and components, other than6E001 Technology according to the General6E002 Technology according to the General6E201 Technology according to the6A203 Cameras and components, other thanc. Space-qualified components for optical d.1. Specially designed to maintain the6A994 Optics, not controlled by 6A004.c. Space-qualified components for optical d.1. Specially designed to maintain the6A994 Optics, not controlled by 6A004.6E001 Technology according to the General6E201 Technology according to the6E002 Technology according to the General6D001 Software specially designed for the6A205 Lasers, laser amplifiers and6A995 Lasers, not controlled by 0B001.g.5,6A205 Lasers, laser amplifiers and6A995 Lasers, not controlled by 0B001.g.5,6A996 Magnetometers not controlled by6A996 Magnetometers not controlled by6A107 Gravity meters (gravimeters) and6A997 Gravity meters (gravimeters) for6A107 Gravity meters (gravimeters) and6A997 Gravity meters (gravimeters) for6A008 Radar systems, equipment and6A998 Radar systems, equipment and6A108 Radar systems and tracking systems,6A108 Radar systems and tracking systems,6A998 Radar systems, equipment and6A998 Radar systems, equipment and6A008 Radar systems, equipment anda. Operating at frequencies from 40 GHz to 2306E001 Technology according to the General6E002 Technology according to the General6E201 Technology according to the6E001 Technology according to the General6E002 Technology according to the General6E201 Technology according to the a.2. Mechanical high speed cameras, in which a.3. Mechanical or electronic streak cameras a.4. Electronic framing cameras having a6E001 Technology according to the General6E002 Technology according to the General6E201 Technology according to the6A995 Lasers, not controlled by 0B001.g.5,6A005 Lasers (other than those described in a.2. An output wavelength of 150 nm or b.6.b. A pulse duration exceeding 1 ns6A005 Lasers (other than those described in a.2. An output wavelength of 150 nm or b.6.b. A pulse duration exceeding 1 ns6E201 Technology according to the6A203 Cameras and components, other than6B108 Systems, other than those controlled by6B108 Systems, other than those controlled by6C992 Optical sensing fibers not controlled by6C992 Optical sensing fibers not controlled by6C994 Optical materials.6C994 Optical materials.c. Space-qualified components for optical d.1. Specially designed to maintain the6D991 Software specially designed for the6D991 Software specially designed for the6E001 Technology according to the General b.2.b.1. Space-qualified; or6D991 Software specially designed for the6D991 Software specially designed for thej. Being laser radar or Light Detection and6D992 Software specially designed for the6D102 Software specially designed orj. Being laser radar or Light Detection and6D102 Software specially designed or6D992 Software specially designed for the6D103 Software that processes post-flight,6D993 Other software not controlled by6D103 Software that processes post-flight,6D993 Other software not controlled byc. Space-qualified components for optical d.1. Specially designed to maintain the a.1. Space-qualified solid-state detectors, as b.2.b.1. Space-qualified; or d.1. Space-qualified cryocoolers;6E201 Technology according to the6E101 Technology according to the General6E991 Technology for the development,6E101 Technology according to the General6E991 Technology for the development,c. Space-qualified components for optical d.1. Specially designed to maintain the a.1. Space-qualified solid-state detectors, as b.2.b.1. Space-qualified; or d.1. Space-qualified cryocoolers;6E992 Technology for the development or6E992 Technology for the development or6E993 Other technology, not controlled by6E993 Other technology, not controlled by6D001 Software specially designed for thea. Radar and laser radar systems designed ora. Radar and laser radar systems designed or a.2. Mechanical high speed cameras, in which a.3. Mechanical or electronic streak cameras a.4. Electronic framing cameras having a a.3. Non- space-qualified focal plane a.3. Non- space-qualified focal plane !  __$ XXXX ,X    +!( [(#(#(CATEGORY6SENSORSANDLASERS  (   _$$_$$A.SYSTEMS,EQUIPMENTAND  COMPONENTS   &G%XX 6A001Acousticsystems,equipmentand   components,asfollows#&G%%&G>#(seeListofItems  \ Controlled)&G%%&GO\ N J  \.N#\   J#O#{X \##&G%%&G#&G%%&G  \ 4  LicenseRequirements  /    ReasonforControl:NS,AT        4  `   Control(s) 4  `      CountryChart g    NSappliestoentireentry   NSColumn2 ?  ATappliestoentireentry   ATColumn1    LicenseRequirementNotes :See743.1of w theEARforreportingrequirementsforexports {S underLicenseExceptions. S+  LicenseExceptions   0  LVS:04#&G%%&GM#&G%%&G$3000;N/Afor6A001.a.1.b.1object  detectionandlocationsystemshaving g atransmittingfrequencybelow5kHz g? orasoundpressurelevelexceeding ? 210dB(reference1%Paat1m)for  equipmentwithanoperating  frequencyinthebandfrom30kHzto   2kHzinclusive;6A001.a.2.a.1, !w  a.2.a.2,6A001.a.2.a.3,a.2.a.5, w"O! a.2.a.6,6A001.a.2.b;processing O#'" equipmentcontrolledby6A001.a.2.c, '$# andspeciallydesignedforrealtime $$ applicationwithtowedacoustic %% _$$hydrophone_$$Ԁarrays;a.2.e.1,a.2.e.2; & & andbottomorbaycablesystems '_!' controlledby6A001.a.2.fandhaving _(7"( processingequipmentspecially 7)#) designedforrealtimeapplication *#* withbottomorbaycablesystems.#&G%%&G#&G%%&G*$+44   GBS: 4 Yesfor6A001.a.1.b.4 +%,   CIV: Q Yesfor6A001.a.1.b.4 (,   ListofItemsControlled  /   Unit:$value ` 81   RelatedControls:Seealso4  !O  5  6A9916 !O   7   8 2   RelatedDefinitions:N/A  3   Items:  4 #&G%%&G #&G%%&G#&G%%&G #&G%%&Ga.Marineacousticsystems,equipmentand p6 speciallydesignedcomponentstherefor,as pH 7 follows: H 8   a.1.Active(transmittingor  : transmitting-and-receiving)systems,equipment  ; andspeciallydesignedcomponentstherefor,as  < follows: X=   Note: 6A001.a.1doesnotcontrol: 0?   a.Depthsoundersoperatingverticallybelow A theapparatus,notincludingascanningfunction B exceeding20$,andlimitedtomeasuringthe jC depthofwater,thedistanceofsubmergedor jBD buriedobjectsorfishfinding; BE   b.Acousticbeacons,asfollows: G    % 1.Acousticemergencybeacons; zI    % 2._$$Pingers_$$Ԁspeciallydesignedfor R *K relocatingorreturningtoanunderwaterposition. *!L    % a.1.a.Wide-swathbathymetricsurvey "N systemsdesignedforseabedtopographicmapping #O andhavingallofthefollowing: $bP    %  Q a.1.a.1.Designedtotakemeasurements :& R atanangleexceeding20$fromthevertical; ' S    %  Q a.1.a.2.Designedtomeasuredepths ("U exceeding600mbelowthewatersurface;and )r#V    %  Q a.1.a.3.Designedtoprovideanyofthe J+"%X following: ",%Y Ї     4  ` a.1.a.3.a.Incorporationof ( multiplebeamsanyofwhichislessthan1.9$;or       4  ` a.1.a.3.b.Dataaccuraciesof  betterthan0.3%ofwaterdepthacrosstheswath  ` averagedovertheindividualmeasurementswithin ` 8 theswath; 8      a.1.b.Objectdetectionorlocation   systems,havinganyofthefollowing:         4 a.1.b.1.Atransmittingfrequency pH  below10kHz; H       4 a.1.b.2.Soundpressurelevel   exceeding224dB(reference1%Paat1m)for   equipmentwithanoperatingfrequencyinthe   bandfrom10kHzto24kHzinclusive; X      4 a.1.b.3.Soundpressurelevel 0 exceeding235dB(reference1%Paat1m)for  equipmentwithanoperatingfrequencyinthe  bandbetween24kHzand30kHz;       4 a.1.b.4.Formingbeamsoflessthan h@ 1$onanyaxisandhavinganoperatingfrequency @ oflessthan100kHz;       4 a.1.b.5.Designedtooperatewithan  unambiguousdisplayrangeexceeding5,120m;or x      4 a.1.b.6.Designedtowithstand P ( pressureduringnormaloperationatdepths (!  exceeding1,000mandhavingtransducerswith "! anyofthefollowing: ""      4  ` a.1.b.6.a.Dynamiccompensation $`$ forpressure;or `%8%      4  ` a.1.b.6.b.Incorporatingotherthan ' ' lead_$$zirconate_$$Ԁtitanateasthetransductionelement; '!(     a.1.c.Acousticprojectors,including )p#* transducers,incorporatingpiezoelectric, p*H$+ _$$magnetostrictive_$$,_$$electrostrictive_$$,electrodynamic H+ %, orhydraulicelementsoperatingindividuallyorin  ,%- adesignedcombinationandhavinganyofthe (- following: .    Notes: 1.Thecontrolstatusofacoustic 0 projectors,includingtransducers,specially  b1 designedforotherequipmentisdeterminedbythe b :2 controlstatusoftheotherequipment. : 3   2.6A001.a.1.cdoesnotcontrolelectronic  5 sourcesthatdirectthesoundverticallyonly,or  6 mechanical(e.g.,airgunorvapor-shockgun)or r7 chemical(e.g.,explosive)sources. rJ 8    %  Q a.1.c.1.Aninstantaneousradiated " : 'acousticpowerdensity'exceeding0.01  ; _$$mW_$$/mm2/Hzfordevicesoperatingatfrequencies  < below10kHz;  =    %  Q a.1.c.2.Acontinuouslyradiated Z2? 'acousticpowerdensity'exceeding0.001 2 @ _$$mW_$$/mm2/Hzfordevicesoperatingatfrequencies  A below10kHz;or B    TechnicalNote: 'Acousticpowerdensity'is jD obtainedbydividingtheoutputacousticpowerby lDE theproductoftheareaoftheradiatingsurfaceand DF thefrequencyofoperation. G    %  Q a.1.c.3.Side-lobesuppression I exceeding22dB; |J    % a.1.d.Acousticsystems,equipmentand T ,L speciallydesignedcomponentsfordeterminingthe ,!M positionofsurfacevesselsorunderwatervehicles, "N designedtooperateatarangeexceeding1,000m "O withapositioningaccuracyoflessthan10m_$$rms_$$ #P (rootmeansquare)whenmeasuredatarangeof $dQ 1,000m; d%<R    Note: 6A001.a.1.dincludes: ' T   a.Equipmentusingcoherent signal ("V processingbetweentwoormorebeaconsandthe )v#W _$$hydrophone_$$Ԁunitcarriedbythesurfacevesselor v*N$X underwatervehicle; N+&%Y  &,%Z   b.Equipmentcapableofautomatically ( correctingspeed-of-soundpropagationerrorsfor  calculationofapoint.    a.2.Passive(receiving,whetherornotrelated  ` innormalapplicationtoseparateactive ` 8 equipment)systems,equipmentandspecially 8  designedcomponentstherefor,asfollows:       a.2.a._$$Hydrophones_$$Ԁhavinganyofthe    following: p       Note: Thecontrolstatusof_$$hydrophones_$$ H  speciallydesignedforotherequipmentis "  determinedbythecontrolstatusoftheother   equipment.        4 a.2.a.1.Incorporatingcontinuous Z flexiblesensingelements; Z2      4 a.2.a.2.Incorporatingflexible   assembliesofdiscretesensingelementswith  eitheradiameterorlengthlessthan20mmand  withaseparationbetweenelementsoflessthan20 j mm; jB      4 a.2.a.3.Havinganyofthefollowing  sensingelements:       4  ` a.2.a.3.a.Opticalfibers; z      4  ` a.2.a.3.b.'Piezoelectricpolymer R * films'otherthan_$$polyvinylidene_$$-fluoride(_$$PVDF_$$) *!  anditsco-polymers{P(_$$VDF_$$-_$$TrFE_$$)and "! P(_$$VDF_$$-_$$TFE_$$)};or ""      4  ` a.2.a.3.c.'Flexiblepiezoelectric $b$ composites'; b%:%      4 a.2.a.4.A'_$$hydrophone_$$Ԁsensitivity' ' ' betterthan-180dBatanydepthwithno '!( accelerationcompensation; (")      4 a.2.a.5.Designedtooperateatdepths r*J$+ exceeding35mwithaccelerationcompensation; J+"%, or ",%- Ї   %  Q a.2.a.6.Designedforoperationat (- depthsexceeding1,000m; .    TechnicalNotes: 1.Piezoelectricpolymer 0 filmsensingelementsconsistofpolarizedpolymer  b1 filmthatisstretchedoverandattachedtoa b :2 supportingframeorspool(mandrel). : 3   2. % Flexiblepiezoelectriccompositesensing  5 elementsconsistofpiezoelectricceramicparticles  6 orfiberscombinedwithanelectricallyinsulating, r7 acousticallytransparentrubber,polymerorepoxy rJ 8 compound,wherethecompoundisanintegralpart J" 9 ofthesensingelements. " :   3. % '_$$Hydrophone_$$Ԁsensitivity'isdefinedas  < twentytimesthelogarithmtothebase10ofthe  = ratioof_$$rms_$$Ԁoutputvoltagetoa1V_$$rms_$$Ԁreference, Z> whenthe_$$hydrophone_$$Ԁsensor,withouta Z2? pre-amplifier,isplacedinaplanewaveacoustic 2 @ fieldwithan_$$rms_$$Ԁpressureof1%Pa.Forexample,  A a_$$hydrophone_$$Ԁof-160dB(reference1Vper%Pa) B wouldyieldanoutputvoltageof10-8Vinsucha C field,whileoneof-180dBsensitivitywouldyield jD only10-9Voutput.Thus,-160dBisbetterthan jBE -180dB. BF    % a.2.b.Towedacoustic_$$hydrophone_$$Ԁarrays H havinganyofthefollowing: I    %  Q a.2.b.1._$$Hydrophone_$$Ԁgroupspacingof zRK lessthan12.5morabletobemodifiedtohave R *L _$$hydrophone_$$Ԁgroupspacingoflessthan12.5m; *!M    %  Q a.2.b.2.Designedorabletobe "O modifiedtooperateatdepthsexceeding35m; #P   TechnicalNote: 'Abletobemodified'in b%:R 6A001.a.2.bmeanshavingprovisionstoallowa <& S changeofthewiringorinterconnectionstoalter ' T _$$hydrophone_$$Ԁgroupspacingoroperatingdepth '!U limits.Theseprovisionsare:sparewiring ("V exceeding10%ofthenumberofwires,_$$hydrophone_$$ )t#W groupspacingadjustmentblocksorinternaldepth t*L$X limitingdevicesthatareadjustableorthatcontrol L+$%Y morethanone_$$hydrophone_$$Ԁgroup. $,%Z Ї     4 a.2.b.3.Headingsensorscontrolled ( by6A001.a.2.d;       4 a.2.b.4.Longitudinallyreinforced  arrayhoses;  `      4 a.2.b.5.Anassembledarrayofless 8  than40mmindiameter;        4 a.2.b.6.[RESERVED];or         4 a.2.b.7._$$Hydrophone_$$Ԁcharacteristics pH  controlledby6A001.a.2.a; H      a.2.c.Processingequipment,specially   designedfortowedacoustic_$$hydrophone_$$Ԁarrays,   having useraccessibleprogrammabilityand   timeorfrequencydomainprocessingand X correlation,includingspectralanalysis,digital X0 filteringand_$$beamforming_$$ԀusingFastFourieror 0 othertransformsorprocesses;      a.2.d.Headingsensorshavingallofthe  following: h      4 a.2.d.1.Anaccuracyofbetterthan @ 0.5$;and       4 a.2.d.2.Designedtooperateat  depthsexceeding35morhavinganadjustableor x removabledepthsensingdeviceinorderto xP operateatdepthsexceeding35m; P (     a.2.e.Bottomorbaycablesystems, "! havinganyofthefollowing: ""      4 a.2.e.1.Incorporating_$$hydrophones_$$ $`$ controlledby6A001.a.2.a;or `%8%      4 a.2.e.2.Incorporatingmultiplexed ' ' _$$hydrophone_$$Ԁgroupsignalmoduleshavingallof '!( thefollowingcharacteristics:@   (")      4  ` a.2.e.2.a.Designedtooperateat p*H$+ depthsexceeding35morhavinganadjustableor H+ %, removaldepthsensingdeviceinordertooperate  ,%- atdepthsexceeding35m;and (-    %  Q  } a.2.e.2.b.Capableofbeing / operationallyinterchangedwithtowedacoustic 0 _$$hydrophone_$$Ԁarraymodules;  `1    % a.2.f.Processingequipment,specially 8 3 designedforbottomorbaycablesystems,having  4  useraccessibleprogrammabilityandtimeor  5 frequencydomainprocessingandcorrelation,  6 includingspectralanalysis,digitalfilteringand p7 _$$beamforming_$$ԀusingFastFourierorother pH 8 transformsorprocesses; H 9 b.Correlation-velocityandDopplervelocity  ; sonarlogequipmentdesignedtomeasurethe  < horizontalspeedoftheequipmentcarrierrelative  = totheseabed,asfollows:O\ X{N J  \ X>    % b.1. } Correlation-velocitysonarlog I!@ equipmenthavinganyofthefollowing :A characteristics: +B    %  Q b.1.a.  Designedtooperateat C distancesbetweenthecarrierandtheseabed  D exceeding500m;or E    %  Q b.1.b.  Havingspeedaccuracybetter G than1%ofspeed; }H    % b.2. } Doppler-velocitysonarlog U-J equipmenthavingspeedaccuracybetterthan1%of - K speed. !L  Note1:  Q 6A001.b.doesnotapplytodepth "N sounderslimitedtoanyofthefollowing: #gO   a. % Measuringthedepthofwater; ?%Q   b. % Measuringthedistanceofsubmergedor & S buriedobjects;or '!T   c. % Fishfinding. w)O#V  Note2:  Q 6A001.b.doesnotapplytoequipment '+$X speciallydesignedforinstallationonsurface ,%Y vessels.N#\   JM#O#{X \M##&G%%&G#&G%%&G ( #&G%%&GS#&G%%&G#&G%%&GS# 6A002Opticalsensors.    LicenseRequirements  ` 8 ̀ReasonforControl:NS,MT,CC,RS,AT,UN       Control(s) 4  `      CountryChart    NSappliestoentireentry   NSColumn2 pH  &G%%&GMTappliestooptical    MTColumn1    detectorsin6A002.a.1,a.3,   or.ethatarespecially   designedormodifiedto   protect missilesagainst X nucleareffects(e.g., X0 ElectromagneticPulse 0 (_$$EMP_$$),Xrays,combined  blastandthermaleffects),  andusablefor missiles.#&G%%&GU#  RSappliesto6A002.a.1, 0  RSColumn1h@ a.2,a.3(excepta.3.d.2.aand @ a.3.eforleadselenidebased  focalplanearrays(_$$FPAs_$$)),.c,  and.e  CCappliestopolicemodel  CCColumn1 xP infraredviewersin6A002.c P ( ATappliestoentireentry   ATColumn1 "! UNappliesto6A002.a.1,0   Iraq,North##   Ѐa.2,a.3andc. `      Korea,and $`$ 0  0040` 440 ` `     Rwanda.`%8%     LicenseRequirementNotes :See743.1of ' ' theEARforreportingrequirementsforexports '!( underLicenseExceptions. (")  &G%%&GLicenseExceptions  t*L$+ 0  LVS:04$3000;exceptN/AforMTandfor(,&-44 6A002.a.1,a.2,a.3,.c,and.e(-Q(#Q(#   GBS: Q N/A .   CIV: Q N/A#&G%%&GS\#&G%%&GԀ#&G%%&G]#&G%%&G / #&G%%&G^# ListofItemsControlled   `1 0  Unit:Number8 3(#(# 0  RelatedControls:Thefollowingcommodities  4 aresubjecttotheexportlicensingauthorityof  5 U.S.DepartmentofState,Directorateof  6 DefenseTradeControls(22_$$CFR_$$Ԁpart121):1.) p7  Imageintensifiersdefinedin4%ro!O  5  6A002.a.26'`!O;`one  7ro!i`Ԁand pH 8  focalplanearraysdefinedin4+ !O  5  6A002.a.36a!O(aarra  7)#Va H 9 speciallydesigned,modified,orconfiguredfor   : militaryuseandnotpartofcivilequipment;2.)  ;  Spacequalifiedsolidstatedetectorsdefined  < in4,ro!O  5  6A002.a.16b!Obone  7rob, spacequalifiedimaging  = sensors(e.g., _$$monospectral_$$Ԁimagingsensors X> and _$$multispectral_$$Ԁimagingsensors)defined X0? in4-ro(!O  5  6A002.b.2.b.16dd!Oxdone  7roDd,and spacequalified 0@ _$$cryocoolers_$$Ԁdefinedin4.ro_!O  5  6A002.d.16e!Oeone  7roge,unless,onor A afterSeptember23,2002,theDepartmentof B Stateissuesacommodityjurisdiction C determinationassigningtheexportlicensing hD authoritytotheDepartmentofCommerce, h@E BureauofIndustryandSecurity.Seealso @F 4/ro!O  5  6A1026g!Ogone  7rog,40roI!O  5  6A20264h!OHhone  7ro=vh,and41ro!O  5  6A9926h!Ohone  7ro&iԀG(#(# 0  Note :Exportersmayapplyforacommodity I jurisdictionrequestwiththeDepartmentof |J State,DirectorateofDefenseTradeControls |TK for spacequalifiedsolidstatedetectors T ,L definedin6A002.a.1andimagingsensors ,!M (e.g., _$$monospectral_$$Ԁimagingsensorsand "N  _$$multispectral_$$Ԁimagingsensors)definedin "O 6A002.b.2.b.1thatmayhavepredominantcivil #P application(s).$dQ(#(# 0  RelatedDefinitions:N/A<& S(#(#   Items: ' T &G%%&G#&G%%&Gl#&G%%&Ga.Opticaldetectors,asfollows: ("V    Note: 6A002.adoesnotcontrolgermaniumor t*L$X silicon_$$photodevices_$$. N+&%Y  &,%Z   N.B.:  4 Siliconandothermaterialbased ( _$$microbolometer_$$non space-qualified focal  planearraysareonlyspecifiedunder  6A002.a.3.f.  % &   a.1. Space-qualifiedsolid-statedetectors, b : asfollows: :  %&3o    a.1.a. Space-qualifiedsolid-state   detectors,havingallofthefollowing:         4 a.1.a.1.Apeakresponseinthe rJ  wavelengthrangeexceeding10_$$nm_$$Ԁbutnot J"  exceeding300_$$nm_$$;and "       4 a.1.a.2.Aresponseoflessthan0.1%   relativetothepeakresponseatawavelength   exceeding400_$$nm_$$; Z     a.1.b. Space-qualifiedsolid-state 2  detectors,havingallofthefollowing:        4 a.1.b.1.Apeakresponseinthe  wavelengthrangeexceeding900_$$nm_$$Ԁbutnot j exceeding1,200_$$nm_$$;and jB      4 a.1.b.2.Aresponse timeconstant  of95nsorless;      a.1.c. Space-qualifiedsolid-state z detectorshavingapeakresponseinthe zR wavelengthrangeexceeding1,200_$$nm_$$Ԁbutnot R * exceeding30,000_$$nm_$$; *!  % $   a.2.Imageintensifiertubesandspecially "" designedcomponentstherefor,asfollows: ## %$u    a.2.a.Imageintensifiertubeshavingall b%:% ofthefollowing: :& &      4 a.2.a.1.Apeakresponseinthe '!( wavelengthrangeexceeding400_$$nm_$$Ԁbutnot (") exceeding1,050_$$nm_$$; )r#*      4 a.2.a.2.Amicrochannelplatefor J+"%, electronimageamplificationwithaholepitch ",%- (center-to-centerspacing)of12%morless;and (-    %  Q a.2.a.3.Anyofthefollowing / photocathodes: 0    %  Q  } a.2.a.3.a.S-20,S-25or_$$multialkali_$$ ` 82 photocathodeswithaluminoussensitivity 8 3 exceeding350%A/lm;  4    %  Q  } a.2.a.3.b._$$GaAs_$$Ԁor_$$GaInAs_$$  6 photocathodes;or p7    %  Q  } a.2.a.3.c.OtherIII-Vcompound H 9 semiconductorphotocathodes;   :    Note: 6A002.a.2.a.3.cdoesnotapplyto  < compoundsemiconductorphotocathodeswitha  = maximumradiantsensitivityof10mA/Worless. Z>    % a.2.b.Speciallydesignedcomponents,as 2 @ follows:  A    %  Q a.2.b.1.Microchannelplateshavinga C holepitch(center-to-centerspacing)of12%mor jD less; jBE    %  Q a.2.b.2._$$GaAs_$$Ԁor_$$GaInAs_$$ G photocathodes; H    %  Q a.2.b.3.OtherIII-Vcompound zJ semiconductorphotocathodes; zRK    Note: 6A002.a.2.b.3doesnotcontrol *!M compoundsemiconductorphotocathodeswitha "N maximumradiantsensitivityof10mA/Worless. "O %    a.3.Non- space-qualified focalplane $dQ arrays,asfollows: d%<R %   N.B.: Siliconandothermaterialbased ' T _$$microbolometer_$$nonspace-qualified focal '!U planearraysareonlyspecifiedin6A002.a.3.f. ("V   TechnicalNotes:  v*N$X   1. % Linearortwo-dimensionalmulti-element (,&Z _$$detectorarraysarereferredtoas focalplane ( arrays.    2.  Forthepurposesof6A002.a.3.cross  scandirectionisdefinedastheaxisparallelto  ` thelineararrayofdetectorelementsandthe ` 8 scandirectionisdefinedastheaxis 8  perpendiculartothelineararrayofdetector   elements.     Note1: 6A002.a.3includesphotoconductive p  arraysandphotovoltaicarrays. rJ    Note2: 6A002.a.3doesnotcontrol: "      a.Multi-element(nottoexceed16   elements)encapsulatedphotoconductivecells   usingeitherleadsulphideorleadselenide; \     b.Pyroelectricdetectorsusinganyofthe 4  following:        4 b.1.Triglycinesulphateandvariants;       4 b.2.Lead-lanthanum-zirconium lD titanateandvariants; D      4 b.3.Lithiumtantalate;       4 b.4.Polyvinylidenefluorideand | variants;or |T      4 b.5.Strontiumbariumniobateand ,!  variants. "! % "     a.3.a.Non- space-qualified focalplane ## arrays,havingallofthefollowing: $d$ %"<     4 a.3.a.1.Individualelementswitha <& & peakresponsewithinthewavelengthrange ' ' exceeding900nmbutnotexceeding1,050nm; '!( and (")      4 a.3.a.2.Aresponse timeconstant t*L$+ oflessthan0.5ns; L+$%,  $,%-    % a.3.b.Non- space-qualified focalplane (- arrays,havingallofthefollowing: .    %  Q a.3.b.1.Individualelementswitha 0 peakresponseinthewavelengthrangeexceeding  `1 1,050nmbutnotexceeding1,200nm;and ` 82    %  Q a.3.b.2.Aresponse timeconstantof  4 95nsorless;  5    % a.3.c. } Non- space-qualifiednon-linear p7 (2-dimensional) focalplanearrays,having pH 8 individualelementswithapeakresponseinthe H 9 wavelengthrangeexceeding1,200nmbutnot   : exceeding30,000nm;  ;    %  N.B.: Siliconandothermaterialbased  = microbolometernonspace-qualified focal Z> planearraysareonlyspecifiedin6A002.a.3.f. Z2?    % a.3.d.Non- space-qualifiedlinear  A (1-dimensional) focalplanearrays,havingallof B thefollowing: C    %  Q a.3.d.1.Individualelementswitha jBE peakresponseinthewavelengthrangeexceeding BF 1,200nmbutnotexceeding3,000nm;and#&G%%&Gl#&G%%&G G    %  Q a.3.d.2.Anyofthefollowing: I    %  Q  } a.3.d.2.a.Aratioofscandirection zRK dimensionofthedetectorelementtothecross-scan R *L directiondimensionofthedetectorelementofless *!M than3.8;or "N    %  Q  } a.3.d.2.b.Signalprocessinginthe #P element(SPRITE); $bQ    % a.3.e.Non- space-qualifiedlinear :& S (1-dimensional) focalplanearrays,having ' T individualelementswithapeakresponseinthe '!U wavelengthrangeexceeding3,000nmbutnot ("V exceeding30,000nm.#&G%%&G#&G%%&G )r#W    % a.3.f.Non- space-qualifiednon-linear J+"%Y (2-dimensional)infrared focalplanearraysbased ",%Z onmicrobolometermaterialhavingindividual ( elementswithanunfilteredresponseinthe  wavelengthrangeequaltoorexceeding8,000nm  butnotexceeding14,000nm.       4  `        TechnicalNotes:  ` 8     1.Forthepurposesof6A002.a.3.f.   microbolometerisdefinedasathermalimaging   detectorthat,asaresultofatemperaturechange    inthedetectorcausedbytheabsorptionof r  infraredradiation,isusedtogenerateanyusable rJ  signal. J"      2.Non-imagingthermaldetectorsare   notcontrolledby6A002.a.3.Imagingthermal   detectorsareamulti-elementarrayofthermal   detectorswiththecapacitytoformavisual, Z electronicorotherrepresentationofanobject Z2 withsufficientfidelitytoenableunderstandingof 2  itsshapeorotherspatialcharacteristics,suchas   height,width,orarea.Amulti-elementarrayof  thermaldetectorswithoutthecapacitytoform  spatialrepresentationofanobjectis j non-imaging. jB     3.6A002.a.3.fcapturesall  non- space-qualifiednon-linear(2-dimensional)  infrared focalplanearraysbasedon  microbolometermaterialhavingindividual z elementswithanyunfilteredresponsebetween zR 8,000nmand14,000nm. R * b. Monospectralimagingsensorsand "!  multispectralimagingsensorsdesignedfor "" remotesensingapplications,havinganyofthe ## following: $b$   b.1.AnInstantaneous-Field-Of-View(IFOV) :& & oflessthan200%rad(microradians);or ' '   b.2.Beingspecifiedforoperationinthe (") wavelengthrangeexceeding400nmbutnot )r#* exceeding30,000nmandhavingallthe r*J$+ following: J+"%,  ",%-    % b.2.a.Providingoutputimagingdatain (- digitalformat;and .    % b.2.b.Beinganyofthefollowing: 0 % '    %  Q b.2.b.1. Space-qualified;or ` 82 %'   %  Q b.2.b.2.Designedforairborne  4 operation,usingotherthansilicondetectors,and  5 havinganIFOVoflessthan2.5mrad  6 (milliradians). p7 c.Directviewimagingequipmentoperatinginthe H 9 visibleorinfraredspectrum,incorporatinganyof   : thefollowing:  ;   c.1.Imageintensifiertubeshavingthe  = characteristicslistedin6A002.a.2.a;or X>   c.2. Focalplanearrayshavingthe 0@ characteristicslistedin6A002.a.3. A    TechnicalNote: Directviewrefersto C imagingequipment,operatinginthevisibleor jD infraredspectrum,thatpresentsavisualimageto jBE ahumanobserverwithoutconvertingtheimage BF intoanelectronicsignalfortelevisiondisplay,and G thatcannotrecordorstoretheimage H photographically,electronicallyorbyanyother I means. zJ   Note: 6A002.cdoesnotcontrolthefollowing R *L equipmentincorporatingotherthanGaAsor ,!M GaInAsphotocathodes: "N   a.Industrialorcivilianintrusionalarm,traffic #P orindustrialmovementcontrolorcounting $dQ systems; d%<R   b.Medicalequipment; ' T   c.Industrialequipmentusedforinspection, ("V sortingoranalysisofthepropertiesofmaterials; )t#W   d.Flamedetectorsforindustrialfurnaces; L+$%Y  $,%Z   e.Equipmentspeciallydesignedfor ( laboratoryuse.  d.Specialsupportcomponentsforoptical  sensors,asfollows:  ` % (   d.1. Space-qualifiedcryocoolers; 8  %(  d.2.Non- space-qualifiedcryocoolers,   havingacoolingsourcetemperaturebelow218K    (-55$C),asfollows: p      d.2.a.Closedcycletypewithaspecified H  Mean-Time-To-Failure(MTTF),or    Mean-Time-Between-Failures(MTBF),exceeding   2,500hours;       d.2.b.Joule-Thomson(JT)self-regulating X minicoolershavingbore(outside)diametersof X0 lessthan8mm; 0   d.3.Opticalsensingfibersspecially  fabricatedeithercompositionallyorstructurally,  ormodifiedbycoating,tobeacoustically, h thermally,inertially,electromagneticallyor h@ nuclearradiationsensitive. @ e. Spacequalified focalplanearrayshaving  morethan2,048elementsperarrayandhavinga  peakresponseinthewavelengthrangeexceeding x 300nmbutnotexceeding900nm. xP #&G%%&GO# 6A003Cameras.  "!  LicenseRequirements  ##   ReasonforControl:NS,NP,RS,AT,UN `%8% Control(s) 4  `      CountryChart ' '   NSappliestoentireentry   NSColumn2 (")     NPappliestoitems     NPColumn1 p*H$+ controlledinparagraphs H+ %, 6A003.a.2,a.3anda.4  ,%- ЇRSappliestoitems     - RSColumn1 (- controlledin6A003.b.3 . andb.4 / ATappliestoentireentry   - ATColumn1  `1 UNappliestoitems     - Iraq,North 8 3 controlledin6A003.b.3   - Korea,and  4 andb.4. Q  }        - Rwanda.  5  LicenseExceptions  p7   LVS:0 Q $1500,exceptN/Afor6A003.a.2 H 9 througha.6,b.1,b.3andb.4  :Q(#Q(#   GBS: Q Yesfor6A003.a.1  ;   CIV: Q Yesfor6A003.a.1  <   ListofItemsControlled  X>   Unit:Number 0@ 0  RelatedControls:(1)SeeECCNs46Q!!O  5  6E0016C!OW  71# A ( development),47C!O  5  6E0026!O-  7#[Ԁ( production),and B 48!O  5  6E2016!O  74Ԁ( use)fortechnologyforitems C controlledunderthisentry.(2)Alsosee hD ECCN49 !O  5  6A2036!O0  7^.(3)SeeECCN8A002.dand.e h@E forcamerasspeciallydesignedormodifiedfor @F underwateruse.G(#(#   RelatedDefinitions:N/A H   Items: I a.Instrumentationcamerasandspeciallydesigned xPK componentstherefor,asfollows: P (L    Note: Instrumentationcameras,controlledby "N 6A003.a.3to6A003.a.5,withmodularstructures "O shouldbeevaluatedbytheirmaximumcapability, #P usingplug-insavailableaccordingtothecamera $bQ manufacturersspecifications. b%:R   a.1.High-speedcinemarecordingcameras ' T usinganyfilmformatfrom8mmto16mm '!U inclusive,inwhichthefilmiscontinuously ("V advancedthroughouttherecordingperiod,andthat )r#W arecapableofrecordingatframingratesexceeding r*J$X 13,150frames/s; J+"%Y  ",%Z   Note: 6A003.a.1doesnotcontrolcinema ( recordingcamerasdesignedforcivilpurposes.  % ^   a.2.Mechanicalhighspeedcameras,inwhich  thefilmdoesnotmove,capableofrecordingat  b ratesexceeding1,000,000frames/sforthefull b : framingheightof35mmfilm,orat :  proportionatelyhigherratesforlesserframe   heights,oratproportionatelylowerratesfor   greaterframeheights;    %^߼% _   a.3.Mechanicalorelectronicstreakcameras rJ  havingwritingspeedsexceeding10mm/%s; J"  %_% `   a.4.Electronicframingcamerashavinga   speedexceeding1,000,000frames/s;   %`j  a.5.Electroniccameras,havingallofthe Z following: Z2     a.5.a.Anelectronicshutterspeed(gating   capability)oflessthan1%sperfullframe;and      a.5.b.Areadouttimeallowingaframing j rateofmorethan125fullframespersecond. jB   a.6.Plug-ins,havingallofthefollowing  characteristics:      a.6.a.Speciallydesignedfor z instrumentationcameraswhichhavemodular zR structuresandthatarecontrolledby6A003.a;and R *       a.6.b.Enablingthesecamerastomeetthe "! characteristicsspecifiedin6A003.a.3,6A003.a.4 "" or6A003.a.5,accordingtothemanufacturers ## specifications. $b$ b.Imagingcameras,asfollows: :& &    Note: 6A003.bdoesnotcontroltelevisionor '!( videocamerasspeciallydesignedfortelevision (") broadcasting. )t#*   b.1.Videocamerasincorporatingsolidstate L+$%, sensors,havingapeakresponseinthewavelength $,%- rangeexceeding10nm,butnotexceeding30,000 (- nmandhavingallofthefollowing: .    % b.1.a.Havinganyofthefollowing: 0    %  Q b.1.a.1.Morethan4x106 active ` 82 pixelspersolidstatearrayformonochrome(black 8 3 andwhite)cameras;  4    %  Q b.1.a.2.Morethan4x106 active  6 pixelspersolidstatearrayforcolorcameras p7 incorporatingthreesolidstatearrays;or pH 8    %  Q b.1.a.3.Morethan12x106 active   : pixelsforsolidstatearraycolorcameras  ; incorporatingonesolidstatearray;and  <    % b.1.b. } Havinganyofthefollowing: X>      %  Q b.1.b.1.Opticalmirrorscontrolledby 0@ 6A004.a.; A    %  Q  }    %  Q b.1.b.2.Opticalcontrolequipment C controlledby6A004.d.;or hD    %  Q b.1.b.3.Thecapabilityforannotating @F internallygeneratedcameratrackingdata. G    TechnicalNotes:  I    % 1.Forthepurposesofthisentry,digital vNK videocamerasshouldbeevaluatedbythe N &L maximumnumberof activepixelsusedfor &!M capturingmovingimages. !N    % 2.Forthepurposeofthisentry,camera #P trackingdataistheinformationnecessarytodefine $^Q cameralineofsightorientationwithrespecttothe ^%6R earth.Thisincludes:1)thehorizontalanglethe 6& S cameralineofsightmakeswithrespecttothe ' T earthsmagneticfielddirectionand;2)thevertical '!U anglebetweenthecameralineofsightandthe ("V earthshorizon. )n#W   b.2.Scanningcamerasandscanningcamera F+%Y systems,havingallofthefollowing: ,%Z Ї    b.2.a. ` Apeakresponseinthe ( wavelengthrangeexceeding10nm,butnot  exceeding30,000nm;      b.2.b.Lineardetectorarrayswithmore  ` than8,192elementsperarray;and ` 8     b.2.c.Mechanicalscanninginone   direction;     b.3.Imagingcamerasincorporatingimage p  intensifiertubeshavingthecharacteristicslisted pH  in6A002.a.2.a; H    b.4.Imagingcamerasincorporating focal   planearrayshavinganyofthefollowing:       b.4.a. ` Incorporating focalplanearrays X controlledby6A002.a.3.a.to6A002.a.3.e.;or X0     b.4.b. ` Incorporating focalplanearrays  controlledby6A002.a.3.f.     Note1: Imagingcamerasdescribedin h 6A003.b.4include focalplanearrayscombined jB withsufficientsignalprocessingelectronics, B beyondthereadoutintegratedcircuit,toenable  asaminimumtheoutputofananalogordigital  signaloncepowerissupplied.     Note2: 6A003.b.4.adoesnotcontrolimaging zR camerasincorporatinglinear focalplane T , arrayswithtwelveelementsorfewer,not ,!  employingtime-delay-and-integrationwithinthe "! element,designedforanyofthefollowing: ""     a.Industrialorcivilianintrusionalarm, $d$ trafficorindustrialmovementcontrolorcounting d%<% systems; <& &     b.Industrialequipmentusedfor '!( inspectionormonitoringofheatflowsin (") buildings,equipmentorindustrialprocesses; )t#*     c.Industrialequipmentusedfor L+$%, inspection,sortingoranalysisofthepropertiesof $,%- materials; (-    % d.Equipmentspeciallydesignedfor / laboratoryuse;or 0    % e.Medicalequipment. ` 82    Note3: 6A003.b.4.b.doesnotcontrolimaging  4 camerashavinganyofthefollowing  5 characteristics:  6    % a.Amaximumframerateequaltoorless rJ 8 than9Hz; J" 9    % b.Havingallofthefollowing:  ;    %  Q 1.Havingaminimumhorizontalor  = verticalInstantaneous-Field-of-View(IFOV)ofat Z> least10mrad/pixel(milliradians/pixel); Z2?    %  Q 2.Incorporatingafixedfocal-length  A lensthatisnotdesignedtoberemoved; B    %  Q 3.Notincorporatingadirectview jD display,and jBE   TechnicalNote: Directviewreferstoan G imagingcameraoperatingintheinfraredspectrum H thatpresentsavisualimagetoahumanobserver I usinganear-to-eyemicrodisplayincorporating |J anylight-securitymechanism. |TK    %  Q 4.Havinganyofthefollowing: ,!M    %  Q  } a.Nofacilitytoobtainaviewable "O imageofthedetectedfield-of-view,or #P    %  Q  } b.Thecameraisdesignedfora d%<R singlekindofapplicationanddesignednottobe <& S usermodified,or ' T   TechnicalNote:  ("V   InstantaneousFieldofView(IFOV)specified r*J$X inNote3.bisthelesserfigureoftheHorizontal J+"%Y FOVortheVerticalFOV. ",%Z Ї  HorizontalIFOV=horizontalFieldofView ( (FOV)/numberofhorizontaldetectorelements    VerticalIFOV=verticalFieldofView  (FOV)/numberofverticaldetectorelements.  `     c.Wherethecameraisspecially 8  designedforinstallationintoacivilianpassenger   landvehicleoflessthanthreetons(grossvehicle   weight)andhavingallofthefollowing:         4 1.Isoperableonlywheninstalledin pH  anyofthefollowing: H       4  ` a.Thecivilianpassengerland   vehicleforwhichitwasintended;or        4  ` b.Aspeciallydesigned, X authorizedmaintenancetestfacility;and X0      4 2.Incorporatesanactivemechanism  thatforcesthecameranottofunctionwhenitis  removedfromthevehicleforwhichitwas  intended. h   Note: Whennecessary,detailsoftheitems @ willbeprovided,uponrequest,totheBureauof  IndustryandSecurityinordertoascertain  compliancewiththeconditionsdescribedinNote  3.b.4.andNote3.c.inthisNoteto6A003.b.4.b. z  6A004Optics.  *!   LicenseRequirements  ""   ReasonforControl:NS,AT $b$ Control(s) 4  `      CountryChart :& &   NSappliestoentireentry   NSColumn2 '!( ATappliestoentireentry   ATColumn1 )r#*   LicenseRequirementNotes :See743.1of J+"%, theEARforreportingrequirementsforexports &,%- underLicenseExceptions. (- &G%%&G LicenseExceptions  /   LVS: Q $3000  `1   GBS:0 Q Yesfor6A004.a.1,a.2,a.4,b,d.2,and ` 82 d.48 3Q(#Q(#   CIV:0 Q Yesfor6A004.a.1,a.2,a.4,b,d.2,and  4 d.4 5Q(#Q(#    %  Q #&G%%&GK#&G%%&G ListofItemsControlled  p7 #&G%%&G#&G%%&G  Unit:Number#&G%%&G#&G%%&GN 2XX{O J X 2 H 9 0  RelatedControls:1.)Foropticalmirrorsor   : 'asphericopticalelements'#&G%%&G#&G%%&GԀspeciallydesigned  ; forlithographyequipment#&G%%&G#&G%%&G,seeECCN3B001.  < 2.) Spacequalifiedcomponentsforoptical  = systemsdefinedin4=T!O  5  6A004.c6!O#   7QԀandopticalcontrol X> equipmentdefinedin4>2!O  5  6A004.d.16!O    7 :;Ԁaresubjectto X0? theexportlicensingauthorityofthe 0@ DepartmentofState,DirectorateofDefense A TradeControls(22CFRpart121)#&G%%&Go#&G%%&G.3.)See B also4? Q!O  5  6A9946!O   7 E .#&G%%&G#&G%%&GC(#(# #&G%%&G#&G%%&GO# 2X  J&#O J X 2N#\   J#N J  \0  RelatedDefinitions:An'asphericoptical hD element'isanyelementusedinanoptical h@E systemwhoseimagingsurfaceorsurfacesare @F designedtodepartfromtheshapeofanideal G sphere.#&G%%&G#&G%%&GH(#(#   Items:O# 2X  J<#N#{XX 2~##&G%%&G#&G%%&G I a.Opticalmirrors(reflectors),asfollows: xPK   a.1. Deformablemirrorshavingeither (!M continuousormulti-elementsurfaces,andspecially "N designedcomponentstherefor,capableof "O dynamicallyrepositioningportionsofthesurface #P ofthemirroratratesexceeding100Hz; $`Q   a.2.Lightweightmonolithicmirrorshavingan 8& S average equivalentdensityoflessthan30kg/m2 ' T andatotalmassexceeding10kg; '!U   a.3.Lightweight compositeorfoammirror )p#W structureshavinganaverage equivalentdensity p*H$X oflessthan30kg/m2andatotalmassexceeding2 H+ %Y kg;  ,%Z Ї  a.4.Beamsteeringmirrorsmorethan100mm ( indiameterorlengthofmajoraxis,thatmaintain  aflatnessoflambda/2orbetter(lambdaisequal  to633nm)havingacontrolbandwidthexceeding  100Hz.  ` b.Opticalcomponentsmadefromzincselenide 8  (ZnSe)orzincsulphide(ZnS)withtransmission   inthewavelengthrangeexceeding3,000nmbut   notexceeding25,000nmandhavinganyofthe    following: p    b.1.Exceeding100cm3involume;or H    b.2.Exceeding80mmindiameterorlength   ofmajoraxisand20mminthickness(depth).   % : c. Space-qualifiedcomponentsforoptical X systems,asfollows: X0 %:  c.1.Lightweightedtolessthan20%   equivalentdensitycomparedwithasolidblank  ofthesameapertureandthickness;    c.2.Substrates,substrateshavingsurface h@ coatings(single-layerormulti-layer,metallicor @ dielectric,conducting,semiconductingor  insulating)orhavingprotectivefilms;    c.3.Segmentsorassembliesofmirrors x designedtobeassembledinspaceintoanoptical xP systemwithacollectingapertureequivalenttoor P ( largerthanasingleoptic1mindiameter; (!    c.4.Manufacturedfrom compositematerials "" havingacoefficientoflinearthermalexpansion ## equaltoorlessthan5x10-6inanycoordinate $`$ direction. `%8% d.Opticalcontrolequipment,asfollows: ' ' % ;   d.1.Speciallydesignedtomaintainthe (") surfacefigureororientationofthe )p#*  space-qualifiedcomponentscontrolledby p*H$+ 6A004.c.1or6A004.c.3; H+ %, %;P  ,%-   d.2.Havingsteering,tracking,stabilizationor (- resonatoralignmentbandwidthsequaltoormore . than100Hzandanaccuracyof10rad / (microradians)orless; 0   d.3.Gimbalshavingallofthefollowing: ` 82    % d.3.a.Amaximumslewexceeding5$;  4    % d.3.b.Abandwidthof100Hzormore;  6 #&G%%&G#&G%%&G   % d.3.c.Angularpointingerrorsof200rad pH 8 (microradians)orless;and H 9    % d.3.d.Havinganyofthefollowing:  ; #&G%%&G#&G%%&G   %  Q d.3.d.1.Exceeding0.15mbutnot  = exceeding1mindiameterormajoraxislengthand X> capableofangularaccelerationsexceeding2rad X0? (radians)/s2;or 0@ #&G%%&G#&G%%&G   %  Q d.3.d.2.Exceeding1mindiameteror B majoraxislengthandcapableofangular C accelerationsexceeding0.5rad(radians)/s2; hD   d.4.Speciallydesignedtomaintainthe @F alignmentofphasedarrayorphasedsegment G mirrorsystemsconsistingofmirrorswitha H segmentdiameterormajoraxislengthof1mor I more. xJ e.Asphericopticalelementshavingallofthe P (L followingcharacteristics:#&G%%&G#&G%%&G (!M   e.1.Thelargestdimensionoftheoptical "O apertureisgreaterthan400mm; #P   e.2.Thesurfaceroughnessislessthan1nm `%8R (rms)forsamplinglengthsequaltoorgreaterthan 8& S 1mm;and ' T   e.3.Thecoefficientoflinearthermal ("V expansionsabsolutemagnitudeislessthan )p#W 3x106/Kat25$C; p*H$X  TechnicalNotes :  ,%Z Ї    1.[RESERVED] (     2.Manufacturersarenotrequiredto  measurethesurfaceroughnesslistedin6A004.e.2  unlesstheopticalelementwasdesignedor  ` manufacturedwiththeintenttomeet,orexceed, ` 8 thecontrolparameter.#&G%%&G #&G%%&G 8    Note: 6A004.edoesnotcontrolaspheric   opticalelementshavinganyofthefollowing:      a.Alargestopticalaperturedimensionless rJ  than1mandafocallengthtoapertureratio J"  equaltoorgreaterthan4.5:1; "      b.Alargestopticalaperturedimensionequal   toorgreaterthan1mandafocallengthto   apertureratioequaltoorgreaterthan7:1; Z   c.BeingdesignedasFresnel,flyeye,stripe, 2  prismordiffractiveopticalelements;     d.Beingfabricatedfromborosilicateglass  havingacoefficientoflinearthermalexpansion j greaterthan2.5x106/Kat25$C;or jB   e.Beinganxrayopticalelementhaving  innermirrorcapabilities(e.g.,tubetypemirrors).  #&G%%&G # % e 6A005 Lasers(otherthanthosedescribedin zR 0B001.g.5or.h.6),componentsandoptical R * equipment,asfollows(seeListofItems *!  Controlled). 0 ` "!` `  %eA LicenseRequirements  ##   ReasonforControl:NS,NP,AT f%>% Control(s)0 4 0` 440 ` ` 0  0    CountryChart' '   NSappliestoentireentry0 0  NSColumn2(") NPappliesto lasers0 0  0  NPColumn1v*N$+ controlledbyO\ X{N J  \Ԁ6A005.a.2, N+&%, b.2.b,b.3.a,N#\   J#N J  \O# 2X  Jp#O J X 2Ԁb.4.b, E,&- b.6.b.,c.1.b,c.2.b,d.3.c,and (- d.4.c,O# 2X  JA#O J X 2N#\   J#N J  \Ԁasdescribed . inthefollowingLicense  / RequirementsNote. 0 O# 2X  J#O J X 2N#\   J#N J  \ATappliestoentireentry0  0-(#(#ATColumn1 2-(#-(# d  dLicenseRequirementsNote: NPcontrols  4 applytothefollowing laserscontrolledby  s5 6A005:d % d sK6  (a) Pulsedexcimer laserscontrolledby # 8 6A005.d.4.chavingallofthefollowing  9 characteristics:  :   (1)Operatingatwavelengthsbetween240and _ < 360nm; _7=   (2)Arepetitionrate>250Hz;and 7> 0  (3)Anaverageoutputpower>500W;d ! ?(#(# d (b) Coppervapor laserscontrolledby A 6A005.b.4.bhavingallofthefollowing sB characteristics: sKC   (1)Operatingatwavelengthsbetween500and #E 600nm;and F   (2)Anaverageoutputpower40W;O# 2X  J#O J X 2N#\   J#N J  \d G   d (c) Pulsedcarbondioxide laserscontrolledby tI 6A005.d.3.c(exceptindustrialCO2lasersusedin xPJ applicationssuchascuttingandwelding),having P (K allofthefollowingcharacteristics: (!L   (1)Operatingatwavelengthsbetween9,000 "N and11,000nm; #O   (2)Arepetitionrate>250Hz; $`P   (3)Anaverageoutputpower>2.5kW;and `%8Q   (4)Apulsewidth<200ns;d 8& R d (d) Argonion laserscontrolledby6A005.a.2 '!T havingallofthefollowingcharacteristics: ("U   (1)Operatingatwavelengthsbetween400and t*L$W 515nm;and L+$%X   (2)Anaverageoutputpower50W;dN#\   J#N J  \O# 2X  J#O J X 2 !  $,%Y d (e) Alexandrite laserscontrolledby6A005.c.2.b  havingallofthefollowingcharacteristics:  0      (1)Operatingatwavelengthsbetween720and  } 800nm; } U   (2)Abandwidth0.005nm; U -   (3)Arepetitionrate>125Hz;and -    (4)Averageoutputpower>30W;d   dO# 2X  JA!#N#{XX 2 # (f) Pulse-excited,Q-switchedneodymium-doped   (otherthanglass) laserscontrolledby i  6A005.b.6.bhavingallofthefollowing iA  characteristics: A    (1)Anoutputwavelengthexceeding1,000   nm,butnotexceeding1,100nm;     (2)Apulsedurationequaltoormorethan1 y ns;and yQ   (3)Asingle-transversemodeoutputhavingan Q) averagepowerexceeding40Wora ) multiple-transversemodeoutputhavingan  averagepowerexceeding50W;   (g) Neodymiumdoped(otherthanglass) a  laserscontrolledby&G%%&G 6A005.a.4,b.2,b.3,b.4#&G%%&G&#O\ X{N J  \, e= havingallofthefollowingcharacteristics: \4   (1)Incorporatingfrequencydoublingfor > outputwavelengthbetween500and550nm;and /   (2)Averageoutputpower>40W; h    N#\   Jo'#N J  \O# 2X  JP'#O J X 2 (h) Tunablepulsedsinglemodedyelaser !  oscillatorscontrolledby6A005.c.1.bor "k! 6A005.c.2.bhavingallofthefollowing k#C" characteristics: C$#   (1)Operatingatwavelengthsbetween300 %% nmand800nm; & &   (2)Anaverageoutputpowergreaterthan1 '{!' W; {(S"(   (3)Arepetitionrategreaterthan1kHz;and S)+#)   (4)Pulsewidthlessthan100ns; +*$*  (i) Tunablepulseddyelaseramplifiersand +%, oscillatorscontrolledby6A005.c.1.bor (, 6A005.c.2.bhavingallofthefollowing - characteristics: .   (1)Operatingatwavelengthsbetween300nm  `0 and800nm; }        -  Y  ` 81   (2)Anaverageoutputpowergreaterthan30 8 2 W;  3   (3)Arepetitionrategreaterthan1kHz;and  4   (4)Pulsewidthlessthan100ns;  5   Note: NPcontrolsdonotapplytosinglemode pH 7 oscillators.O# 2X  J+)#O J X 2N#\   J(#N J  \ J" 8 N#\   J.#N J  \O# 2X  J.#O J X 2&G%%&G LicenseExceptions   :   LVS:0 Q N/AforNPitems <Q(#Q(#    % 0 Q $3000forallotheritemsZ=Q(#Q(# #&G%%&G/#N#\   JP/#O#{X \/#O\ X{N J  \&G%%&Gd0  d#&G%%&GM1#N#\   J.1#N J  \O# 2X  J1#O J X 2&G%%&GGBS:0Q(#(##&G%%&G/2#&G%%&GO# 2X  J2#O J X 2N#\   J1#N J  \Neodymium-doped(otherthanglass) Z2>  laserscontrolledby Q)? 6A005.b.6.c.2(except6A005.b.6.c.2.b) B@ thathaveanoutputwavelength 3 A exceeding1,000nm,butnot $B exceeding1,100nm,andanaverageor C CWoutputpowernotexceeding2kW, D andoperateinapulse-excited,non- E  Q-switchedmultiple-transverse F mode,orinacontinuouslyexcited, G multiple-transversemode;Dyeand H LiquidLaserscontrolledby I 6A005.c.1,c.2andc.3,N#\   J3#N J  \O# 2X  J2#O J X 2#&G%%&G2#&G%%&GԀexceptfora  J pulsedsinglelongitudinalmode !{K oscillatorhavinganaverageoutput {"SL powerexceeding1Wandarepetition S#+M rateexceeding1kHzifthe pulse +$N durationislessthan100ns;CO %O "lasers"controlledby6A005.d.2 %P havingaCWmaximumratedsingleor & Q multimodeoutputpowernot 'c!R exceeding10kW;CO2orCO/CO2 c(;"S  laserscontrolledby6A005.d.3 ;)#T havinganoutputwavelengthinthe *#U rangefrom9,000to11,000nmand *$V havingapulsedoutputnotexceeding +%WQ(#Q(# 2Jperpulseandamaximumrated ( averagesingleormultimodeoutput  powernotexceeding5kW;CO2   laserscontrolledby6A005.d.3that  operateinCWmultiple-transverse  ` mode,andhavingaCWoutputpower ` 8 notexceeding15kW;and6A005.f.1.N#\   J5#O#{X \16##&G%%&Gs6#&G%%&GO\ X{N J  \8 44 0  CIV:04#&G%%&Gp;#&G%%&GO# 2X  J;#N#{XX 2;#N 2XX{O J X 2Neodymium-doped(otherthanglass) )   laserscontrolledby6A005.b.6.c.2   (except6A005.b.6.c.2.b)thathavean    outputwavelengthexceeding1,000   nm,butnotexceeding1,100nm,and   anaverageorCWoutputpowernot   exceeding2kW,andoperateina   pulse-excited,non- Q-switched   multiple-transversemode,orina   continuouslyexcited, z multiple-transversemode;Dyeand k LiquidLaserscontrolledby \ 6A005.c.1,c.2andc.3,O# 2X  J<#O J X 2N#\   J<#N J  \#&G%%&G7<#&G%%&GԀexceptfora uM pulsedsinglelongitudinalmode lD oscillatorhavinganaverageoutput D powerexceeding1Wanda  repetitionrateexceeding1kHzifthe   pulsedurationislessthan100ns;  CO laserscontrolledby6A005.d.2 | havingaCWmaximumratedsingle |T ormultimodeoutputpowernot T, exceeding10kW;CO2orCO/CO2 ,  laserscontrolledby6A005.d.3   havinganoutputwavelengthinthe   rangefrom9,000to11,000nmand ! havingapulsedoutputnotexceeding "d  2Jperpulseandamaximumrated d#<! averagesingleormultimodeoutput <$" powernotexceeding5kW;CO2 %#  laserscontrolledby6A005.d.3that %$ operateinCWmultiple-transverse & % mode,andhavingaCWoutputpower 't!& notexceeding15kW;and6A005.f.1.O# 2X  J?#N#{XX 2?#Ԛ#&G%%&G!@#O\ X{N J  \&G%%&Gt(L"'44  ListofItemsControlled  =*$) #&G%%&GXE#&G%%&GN#\   J9E#N J  \O# 2X  JE#O J X 20  #&G%%&GE#Unit:&G%%&GNumber#&G%%&GF#+%+ 0  RelatedControls:(1)SeeECCN4e !O  5  6D0016eG!OyGceed  7e"GԀfor (+  softwareforitemscontrolledunderthis , entry.(2)SeeECCNs4@ -!O  5  6E0016H!OHtpo  7ut HԀ( development), - 4But!O  5  6E0026YI!OmItpo  7utIԀ( production),and4Aut!O  5  6E2016J!O2Jtpo  7ut`JԀ( use)for . technologyforitemscontrolledunderthis  `/ entry.(3)AlsoseeECCNs4Gnt!O  5  6A2056IK!O]Kg15  7edKԀand4Hed!!O  5  6A9956K!O Lg15  7ed#:L. ` 80 (4)SeeECCN3B001forexcimer lasers 8 1 speciallydesignedforlithographyequipment.  2 (5) Lasersspeciallydesignedorpreparedfor  3 useinisotopeseparationaresubjecttothe  4 exportlicensingauthorityoftheNuclear p5 RegulatoryCommission(see10CFRpart pH 6 110).(6)Sharedapertureopticalelements, H 7 capableofoperatingin superhighpower   8 laserapplications,and lasersspecifically  9 designed,modified,orconfiguredformilitary  : applicationaresubjecttotheexportlicensing  ; authorityoftheU.S.DepartmentofState, X< DirectorateofDefenseTradeControls(see22 X0= CFRpart121).0>(#(# 0  RelatedDefinitions:Wallplugefficiencyis ? definedastheratiooflaseroutputpower(or @  averageoutputpower)tototalelectrical A inputpowerrequiredtooperatethe laser, hB includingthepowersupply/conditioningand h@C thermalconditioning/heatexchanger.@D(#(#   Items: E  Notes:  G   1. 0 % Pulsed lasersincludethosethatrunin zH acontinuouswave(CW)modewithpulses |TI superimposed.T ,J%(#%(#   2. 0 % Eximer,semiconductor,chemical,CO, ,!K CO2,andnonrepetitivepulsedNd:glass "L  lasersareonlyspecifiedin6A005.d."M%(#%(#   3.  % 6A005includesfiber lasers. #N   4. 0 % Thecontrolstatusof lasers $hO incorporatingfrequencyconversion(i.e., j%BP wavelengthchange)bymeansotherthan B& Q one laserpumpinganother laseris ' R determinedbyapplyingthecontrol '!S parametersforboththeoutputofthe ("T source laserandthefrequency )z#U convertedopticaloutput.z*R$V%(#%(#   5.  % 6A005doesnotcontrolthefollowing R+*%W  lasers: ,,&X     a.  4 Rubywithoutputenergybelow20J; (     b . 4 Nitrogen;      c.  4 Krypton.  a.Non tunablecontinuouswave (CW)lasers,  f havinganyofthefollowing: f >   a.1. 4 Anoutputwavelengthlessthan150   nmwithanoutputpowerexceeding1W;   % f   a.2. 4 Anoutputwavelengthof150nmor v  morebutnotexceeding520nmandhavingan vN  outputpowerexceeding30W;   <  h    N&    %fX   4  `      Note: 0 4 6A005.a.2doesnotcontrolArgon    lasershavinganoutputpower   equaltoorlessthan50W.  44   a.3. 4 Anoutputwavelengthexceeding520 `8 nmbutnotexceeding540nmandhavinganyof 8 thefollowing:      a.3.a. ` Asingletransversemodeoutput  havinganoutputpowerexceeding50W;or p     a.3.b. ` Amultipletransversemode H  outputhavinganoutputpowerexceeding150W;     a.4. 4 Anoutputwavelengthexceeding540  nmbutnotexceeding800nmandhavingan  outputpowerexceeding30W; X   a.5. 4 Anoutputwavelengthexceeding800 0!  nmbutnotexceeding975nmandhavinganyof "! thefollowing: ""     a.5.a. ` Asingletransversemodeoutput $h$ havinganoutputpowerexceeding50W;or h%@%     a.5.b. ` Amultipletransversemode ' ' outputhavinganoutputpowerexceeding80W; '!(   a.6. 4 Anoutputwavelengthexceeding975 )x#* nmbutnotexceeding1,150nmandhavinganyof x*P$+ thefollowing; P+(%,  (,&-    % a.6.a. } Asingletransversemodeoutput (- havinganyofthefollowing: .    %  Q a.6.a.1.  A wallplugefficiency 0 exceeding12%andanoutputpowerexceeding100  `1 W;or ` 82    %  Q a.6.a.2.  Anoutputpowerexceeding  4 150W;or  5    % a.6.b. } Amultipletransversemodeoutput p7 havinganyofthefollowing: pH 8    %  Q a.6.b.1.  A wallplugefficiency   : exceeding18%andanoutputpowerexceeding500  ; W;or  <    %  Q a.6.b.2.Anoutputpowerexceeding2 X> kW; X0?   0 % Note:  } 6A005.a.6.bdoesnotcontrol A multipletransversemode,industrial B  laserswithoutputpowerexceeding2kW C andnotexceeding6kWwithatotalmass jD greaterthan1,200kg.Forthepurposeof jBE thisnote,totalmassincludesall BF componentsrequiredtooperatethe G  laser,e.g., laser,powersupply,heat H exchanger,butexcludesexternalopticsfor I beamconditioningand/ordelivery.zJ%(#%(#   a.7. Q Anoutputwavelengthexceeding1,150 R *L nmbutnotexceeding1,555nmandhavinganyof *!M thefollowing: "N    % a.7.a. } Asingletransversemodehaving #P anoutputpowerexceeding50W;or $bQ    % a.7.b. } Amultipletransversemodehaving :& S anoutputpowerexceeding80W;or ' T   a.8. Q Anoutputwavelengthexceeding1,555 ("V nmandhavinganoutputpowerexceeding1W. )r#W b.  Non tunable pulsedlasers,havinganyof J+"%Y thefollowing; ",%Z Ї  b.1. 4 Anoutputwavelengthlessthan150 ( nmandhavinganyofthefollowing:      b.1.a. ` Anoutputenergyexceeding50  mJperpulseanda peakpowerexceeding1W;  ` or ` 8     b.1.b. ` An averageoutputpower   exceeding1W;     b.2. 4 Anoutputwavelengthof150nmor p  morebutnotexceeding520nmandhavinganyof pH  thefollowing: H      b.2.a. ` Anoutputenergyexceeding1.5J   perpulseanda peakpowerexceeding30W;or       b.2.b. ` An averageoutputpower X exceeding30W; X0  0  0Note:  ` 6A005.b.2.bdoesnotcontrol  Argon lasershavingan average  outputpowerequaltoorlessthan50W.   b.3. 4 Anoutputwavelengthexceeding520 jB nm,butnotexceeding540nmandhavinganyof B thefollowing:      b.3.a. ` Asingletransversemodeoutput  havinganyofthefollowing: z      4 b.3.a.1. Anoutputenergyexceeding R * 1.5Jperpulseanda peakpowerexceeding50 *!  W;or "!      4 b.3.a.2. An averageoutputpower ## exceeding50W;or $b$     b.3.b. ` Amultipletransversemode :& & outputhavinganyofthefollowing: ' '      4 b.3.b.1. Anoutputenergyexceeding (") 1.5Jperpulseanda peakpowerexceeding150 )r#* W;or r*J$+      4 b.3.b.2. An averageoutputpower ",%- exceeding150W; (-   b.4. Q Anoutputwavelengthexceeding540 / nmbutnotexceeding800nmandhavinganyof 0 thefollowing:  `1    % b.4.a. } Anoutputenergyexceeding1.5J 8 3 perpulseanda peakpowerexceeding30W;or  4    % b.4.b. } An averageoutputpower  6 exceeding30W; p7   b.5. Q Anoutputwavelengthexceeding800 H 9 nmbutnotexceeding975nmandhavinganyof   : thefollowing:  ;    % b.5.a. } A pulsedurationnotexceeding  = 1%sandhavinganyofthefollowing: X>    %  Q b.5.a.1.  Anoutputenergyexceeding 0@ 0.5Jperpulseanda peakpowerexceeding50 A W; B    %  Q b.5.a.2.  Asingletransversemode hD outputhavingan averageoutputpower h@E exceeding20W;or @F    %  Q b.5.a.3.  Amultipletransversemode H outputhavingan averageoutputpower I exceeding50W;or xJ    % b.5.b. } A pulsedurationexceeding1%s P (L andhavinganyofthefollowing: (!M    %  Q b.5.b.1.  Anoutputenergyexceeding2 "O Jperpulseanda peakpowerexceeding50W; #P    %  Q b.5.b.2.  Asingletransversemode `%8R outputhavingan averageoutputpower 8& S exceeding50W;or ' T    %  Q b.5.b.3.  Amultipletransversemode ("V outputhavingan averageoutputpower )p#W exceeding80W. p*H$X   b.6. Q Anoutputwavelengthexceeding975  ,%Z nmbutnotexceeding1,150nmandhavinganyof ( thefollowing:      b.6.a. ` A pulsedurationofN#\   J0F#N J  \O# 2X  JrF#O J X 2lessthan1  nN#\   JB}#N J  \O# 2X  J}#O J X 2sO# 2X  J)~#N#{XX 2}#O\ X{N J  \Ԁandhavinganyofthefollowing:        4 b.6.a.1. Anoutput peakpower  a exceeding5GWperpulse; z R      4 b.6.a.2. An averageoutputpower \4  exceeding10W;or M%       4 b.6.a.3. Anoutputenergyexceeding   0.1Jperpulse;   % g     b.6.b. ` A pulsedurationexceeding1ns |  butnotexceeding1%s,andhavinganyofthe |T following: T, %gÀ     4 b.6.b.1. Asingletransversemode  outputhavinganyofthefollowing:       4  ` b.6.b.1.a. A peakpower d exceeding100MW; d<      4  ` b.6.b.1.b. An averageoutput  powerexceeding20Wlimitedbydesigntoa  maximumpulserepetitionfrequencylessthanor  equalto1kHz; t      4  ` b.6.b.1.c. Awallplug L $ efficiencyexceeding12%andan averageoutput $! powerexceeding100Wandcapableofoperating !  atapulserepetitionfrequencygreaterthan1kHz; "!      4  ` b.6.b.1.d. An averageoutput $\# powerexceeding150Wandcapableofoperating \%4$ atapulserepetitionfrequencygreaterthan1kHz; 4& % or  ' &      4  ` b.6.b.1.e. Anoutputenergy ("( exceeding2Jperpulse; )l#)      4 b.6.b.2. Amultipletransversemode D+%+ outputhavinganyofthefollowing: ,%, Ї   %  Q  } b.6.b.2.a.  A peakpower (, exceeding400MW; -    %  Q  } b.6.b.2.b.  Awallplug / efficiencyexceeding18%andan averageoutput  `0 powerexceeding500W; ` 81    %  Q  } b.6.b.2.c.  An averageoutput  3 powerexceeding2kW;or  4    %  Q  } b.6.b.2.d.  Anoutputenergy p6 exceeding4Jperpulse;or pH 7    % b.6.c. } A pulsedurationexceeding1%s   9 andhavinganyofthefollowing:  :    %  Q b.6.c.1.  Asingletransversemode  < outputhavinganyofthefollowing: X=    %  Q  } b.6.c.1.a.  A peakpower 0? exceeding500kW; @    %  Q  } b.6.c.1.b.  Awallplug B efficiencyexceeding12%andan averageoutput hC powerexceeding100W;or h@D    %  Q  } b.6.c.1.c.  An averageoutput F powerexceeding150W;or G    %  Q b.6.c.2.  Amultipletransversemode xI outputhavinganyofthefollowing: xPJ    %  Q  } b.6.c.2.a.  A peakpower (!L exceeding1MW; "M    %  Q  } b.6.c.2.b.  Awallplug #O efficiencyexceeding18%andan averageoutput $`P powerexceeding500W;or `%8Q    %  Q  } b.6.c.2.c.  An averageoutput ' S powerexceeding2kW; '!T   b.7. Q Anoutputwavelengthexceeding1,150 )p#V nmbutnotexceeding1,555nmandhavinganyof p*H$W thefollowing: H+ %X   ,%Y     b.7.a. ` A pulsedurationnotexceeding ( 1%sandhavinganyofthefollowing:       4      4 b.7.a.1. Anoutputenergyexceeding  0.5Jperpulseanda peakpowerexceeding50  ` W; ` 8      4 b.7.a.2. Asingletransversemode   outputhavingan averageoutputpower   exceeding20W;or         4 b.7.a.3. Amultipletransversemode pH  outputhavingan averageoutputpower H  exceeding50W;or        b.7.b. ` A pulsedurationexceeding1   %sandhavinganyofthefollowing:        4 b.7.b.1. Anoutputenergyexceeding X0 2Jperpulseanda peakpowerexceeding50W; 0      4 b.7.b.2. Asingletransversemode  outputhavingan averageoutputpower  exceeding50W;or h      4 b.7.b.3. Amultipletransversemode @ outputhavingan averageoutputpower  exceeding80W;or    b.8. 4 Anoutputwavelengthexceeding x 1,555nmandhavinganyofthefollowing: xP     b.8.a. ` Anoutputenergyexceeding100 (!  mJperpulseanda peakpowerexceeding1W; "! or ""     b.8.b. ` An averageoutputpower ## exceeding1W; $`$ c.  Tunablelasers,havinganyofthefollowing: 8& &  Note: 6A005.cincludestitaniumsapphire(Ti: '!( Al203),thuliumYAG(Tm:YAG),thuliumYSGG (") (Tm:YSGG),alexandrite(Cr:BeAl204),color )r#* center lasers,dye lasers,andliquid r*J$+  lasers. J+"%,    ",%-   c.1. Q Anoutputwavelengthlessthan600 (- nmandhavinganyofthefollowing: .    % c.1.a. } Anoutputenergyexceeding50mJ 0 perpulseanda peakpowerexceeding1W;or  `1    % c.1.b. } AnaverageorCWoutputpower 8 3 exceeding1W;  4    %   c.2. Q Anoutputwavelengthof600nmor  6 morebutnotexceeding1,400nmandhavingany p7 ofthefollowing: pH 8    % c.2.a. } Anoutputenergyexceeding1Jper   : pulseanda peakpowerexceeding20W;or  ;    % c.2.b. } AnaverageorCWoutputpower  = exceeding20W;or X>   c.3. Q Anoutputwavelengthexceeding1,400 0@ nmandhavinganyofthefollowing: A    % c.3.a. } Anoutputenergyexceeding50mJ C perpulseanda peakpowerexceeding1W;or hD    % c.3.b. } AnaverageorCWoutputpower @F exceeding1W; G d.  Other lasers,notcontrolledin6A005.a., I 6A005.b,or6A005.c,asfollows: xJ   d.1. Q Semiconductor lasers,asfollows: P (L    Notes:  "N    % 1.  Q 6A005.d.1includessemiconductor "O  lasershavingopticaloutputconnectors(e.g., #P fiberopticpigtails). $`Q    % 2.  Q Thecontrolstatusofsemiconductor `%8R  lasersspeciallydesignedforotherequipmentis :& S determinedbythecontrolstatusoftheother ' T equipment. '!U    % d.1.a. } Individualsingletransversemode )r#W semiconductor lasers,havinganyofthe r*J$X following: J+"%Y  ",%Z      4 d.1.a.1. Awavelengthequaltoorless ( than1,510nmandhavinganaverageorCW  outputpowerexceeding1.5W;or       4 d.1.a.2. Awavelengthgreaterthan  ` 1,510nm,andhavinganaverageorCWoutput ` 8 powerexceeding500mW; 8      d.1.b. ` Individual,multipletransverse   modesemiconductor lasers,havinganyofthe    following: p       4 d.1.b.1. Awavelengthoflessthan H  1,400nmandhavinganaverageorCWoutput    powerexceeding10W;        4 d.1.b.2. Awavelengthequaltoor   greaterthan1,400nmandlessthan1,900nm,and X havinganaverageorCWoutputpowerexceeding X0 2.5W;or 0      4 d.1.b.3. Awavelengthequaltoor  greaterthan1,900nmandhavinganaverageor  CWoutputpowerexceeding1W. h     d.1.c. ` Individualsemiconductor laser @ arrays,havinganyofthefollowing:       4 d.1.c.1. Awavelengthoflessthan  1,400nmandhavinganaverageorCWoutput x powerexceeding80W; xP      4 d.1.c.2. Awavelengthequaltoor (!  greaterthan1,400nmandlessthan1,900nmand "! havinganaverageorCWoutputpowerexceeding "" 25W;or ##      4 d.1.c.3. Awavelengthequaltoor `%8% greaterthan1,900nmandhavinganaverageor 8& & CWoutputpowerexceeding10W. ' '     d.1.d. ` Arraystacksofsemiconductor (")  laserscontainingatleastonearraythatis )p#* controlledunder6A005.d.1.c. p*H$+    TechnicalNotes :  ,%- Ї  1.Semiconductor lasersarecommonly (- called laserdiodes. .   2. % An arrayconsistsofmultiple 0 semiconductor laseremittersfabricatedasa  `1 singlechipsothatthecentersoftheemittedlight ` 82 beamsareonparallelpaths. 8 3   3. % An arraystackisfabricatedbystacking,  5 orotherwiseassembling, arrayssothatthe  6 centersoftheemittedlightbeamsareonparallel p7 paths. pH 8   d.2. Q Carbonmonoxide(CO) lasers   : havinganyofthefollowing:  ;    % d.2.a. } Anoutputenergyexceeding2Jper  = pulseanda peakpowerexceeding5kW;or X>    % d.2.b. } AnaverageorCWoutputpower 0@ exceeding5kW; A   d.3. Q Carbondioxide(CO2) lasershaving C anyofthefollowing: hD    % d.3.a. } ACWoutputpowerexceeding15 @F kW; G    % d.3.b. } Apulsedoutputhavinga pulse I durationexceeding10%sandhavinganyofthe xJ following: xPK    %  Q d.3.b.1.  An averageoutputpower (!M exceeding10kW;or "N    %  Q d.3.b.2.  A peakpowerexceeding100 #P kW;or $`Q    % d.3.c. } Apulsedoutputhavinga pulse 8& S durationequaltoorlessthan10%sandhaving ' T anyofthefollowing: '!U    %  Q d.3.c.1.  Apulseenergyexceeding5J )p#W perpulse;or p*H$X    %  Q d.3.c.2.  An averageoutputpower  ,%Z exceeding2.5kW; (   d.4. 4 Excimer lasers,havinganyofthe  following:      d.4.a. ` Anoutputwavelengthnot ` 8 exceeding150nmandhavinganyofthe 8  following:        4 d.4.a.1. Anoutputenergyexceeding   50mJperpulse;or         4 d.4.a.2. An averageoutputpower pH  exceeding1W; H      d.4.b. ` Anoutputwavelengthexceeding   150nmbutnotexceeding190nmandhavingany   ofthefollowing:        4 d.4.b.1. Anoutputenergyexceeding X0 1.5Jperpulse;or 0      4 d.4.b.2. An averageoutputpower  exceeding120W;      d.4.c. ` Anoutputwavelengthexceeding h@ 190nmbutnotexceeding360nmandhavingany @ ofthefollowing:       4 d.4.c.1. Anoutputenergyexceeding  10Jperpulse;or x      4 d.4.c.2. An averageoutputpower P ( exceeding500W;or (!      d.4.d. ` Anoutputwavelengthexceeding "" 360nmandhavinganyofthefollowing: ##      4 d.4.d.1. Anoutputenergyexceeding `%8% 1.5Jperpulse;or 8& &      4 d.4.d.2. An averageoutputpower '!( exceeding30W; (")    Note:  4 Forexcimer lasersspecially p*H$+ designedforlithographyequipment,see3B001. J+"%,  ",%-   d.5. Q Chemicallasers,asfollows: (-    % d.5.a.HydrogenFluoride(HF) lasers; /    % d.5.b.DeuteriumFluoride(DF) lasers;  `1    % d.5.c. Transferlasers,asfollows: 8 3    %  Q d.5.c.1.OxygenIodine(O2-I) lasers;  5    %  Q d.5.c.2.DeuteriumFluoride-Carbon p7 dioxide(DF-CO2) lasers; pH 8   d.6. Q NonrepetitivepulsedNeodymium   : (Nd)glass lasers,havinganyofthefollowing:  ;    % d.6.a. } A pulsedurationnotexceeding  = 1%sandanoutputenergyexceeding50Jper X> pulse;or X0?    % d.6.b. } A pulsedurationexceeding1%s A andanoutputenergyexceeding100Jperpulse; B    Note:  Q Nonrepetitivepulsedrefersto hD  lasersthatproduceeitherasingleoutputpulse jBE orthathaveatimeintervalbetweenpulses BF exceedingoneminute. G e.Components,asfollows: I   e.1.Mirrorscooledeitherbyactivecoolingor zRK byheatpipecooling; R *L   TechnicalNote :Activecoolingisacooling "N techniqueforopticalcomponentsusingflowing "O fluidswithinthesubsurface(nominallylessthan1 #P mmbelowtheopticalsurface)oftheoptical $dQ componenttoremoveheatfromtheoptic. d%<R   e.2.Opticalmirrorsortransmissiveorpartially ' T transmissiveopticalorelectro-opticalcomponents '!U speciallydesignedforusewithcontrolled lasers; ("V f.Opticalequipment,asfollows: t*L$X    N.B.: Forsharedapertureopticalelements, $,%Z capableofoperatingin Super-HighPower ( Laser( SHPL)applications,seetheU.S.  MunitionsList(22CFRpart121).    f.1.Dynamicwavefront(phase)measuring  ` equipmentcapableofmappingatleast50 ` 8 positionsonabeamwavefronthavinganythe 8  following:       f.1.a.Frameratesequaltoormorethan    100Hzandphasediscriminationofatleast5%of p  thebeam'swavelength;or pH      f.1.b.Frameratesequaltoormorethan    1,000Hzandphasediscriminationofatleast20%   ofthebeam'swavelength;     f.2. Laserdiagnosticequipmentcapableof X measuring SHPLsystemangularbeamsteering X0 errorsofequaltoorlessthan10rad; 0   f.3.Opticalequipmentandcomponents  speciallydesignedforaphased-array SHPL  systemforcoherentbeamcombinationtoan h accuracyoflambda/10atthedesigned h@ wavelength,or0.1m,whicheveristhesmaller; @   f.4.Projectiontelescopesspeciallydesigned  forusewith SHPLsystems.   < N#\   J~#O#{X \~#   6A006 Magnetometers, magnetic   gradiometers, intrinsicmagnetic !^  gradiometers,underwaterelectricfield ^"6! sensors,and compensationsystems,and 6#" speciallydesignedcomponentstherefor,as $# follows(seeListofItemsControlled).  $$  LicenseRequirements  &n &   ReasonforControl:NS,AT F("( Control(s) 4  `      CountryChart )#*   NSappliestoentireentry   NSColumn2 +~%,  ~,V&- ATappliestoentireentry   - ATColumn1 (-   LicenseRequirementNotes :See743.1of / theEARforreportingrequirementsforexports 0 underLicenseExceptions.  d1  LicenseExceptions  < 3   LVS:0 Q $1500,N/Afor6A006.a.1;  5  Magnetometersandsubsystems  6 definedin6A006.a.2usingoptically t7 pumpedornuclearprecession tL 8 (proton/Overhauser)havinga noise L$ 9 level(sensitivity)lower(better)than $ : 2pTrmspersquarerootHz;and  ; 6A006.d. <Q(#Q(#   GBS: Q N/A    =   CIV: Q N/A   \>  ListofItemsControlled  4 @   Unit:$value B 0  RelatedControls:Seealso4JW!O  5  6A9966!O  7W-.Thisentry C doesnotcontrolinstrumentsspeciallydesigned lD forfisheryapplicationsorbiomagnetic lDE measurementsformedicaldiagnostics.DF(#(#   RelatedDefinitions:N/A G   Items: H a.  Magnetometersandsubsystems,asfollows: |J   a.1. Q Using superconductive(SQUID) T ,L  technologyandhavinganyofthefollowing ,!M characteristics: "N    % a.1.a. } SQUIDsystemsdesignedfor #P stationaryoperation,withoutspeciallydesigned $dQ subsystemsdesignedtoreducein-motionnoise, d%<R andhavinga noiselevel(sensitivity)equaltoor <& S lower(better)than50fT(rms)persquarerootHz ' T atafrequencyof1Hz;or '!U    % a.1.b. } SQUIDsystemshavingan )t#W in-motion-magnetometer noiselevel(sensitivity) t*L$X lower(better)than20pT(rms)persquarerootHz L+$%Y atafrequencyof1Hzandspeciallydesignedto $,%Z reducein-motionnoise; (   a.2. 4 Usingopticallypumpedornuclear  precession(proton/Overhauser) technology  havinga noiselevel(sensitivity)lower(better)  ` than20pT(rms)persquarerootHz; ` 8   a.3. 4 Usingfluxgate technologyhaving   a noiselevel(sensitivity)equaltoorlower   (better)than10pT(rms)persquarerootHzata    frequencyof1Hz; p    a.4.Inductioncoil magnetometershaving H  a noiselevel(sensitivity)lower(better)than    anyofthefollowing:       a.4.a.0.05nTrms/squarerootHzat   frequenciesoflessthan1Hz; X     a.4.b.1x10-3nTrms/squarerootHzat 0 frequenciesof1Hzormorebutnotexceeding10  Hz;or      a.4.c.1x10-4nTrms/squarerootHzat h frequenciesexceeding10Hz; h@   a.5.Fiberoptic magnetometershavinga   noiselevel(sensitivity)lower(better)than1nT  rmspersquarerootHz;  &G%%&Gb.Underwaterelectricfieldsensorshavinga xP  noiselevel(sensitivity)lower(better)than8 P ( nanovoltpermeterpersquarerootHzwhen (!  measuredat1Hz. "! c.#&G%%&G#Ԁ Magneticgradiometersasfollows: ##   c.1. Magneticgradiometersusingmultiple `%8%  magnetometerscontrolledby6A006.a; 8& &   c.2.Fiberoptic intrinsicmagnetic '!( gradiometershavingamagneticgradientfield (")  noiselevel(sensitivity)lower(better)than0.3 )p#* nT/mrmspersquarerootHz; p*H$+   c.3. Intrinsicmagneticgradiometers,using  ,%-  technologyotherthanfiber-optic technology, (- havingamagneticgradientfield noiselevel . (sensitivity)lower(better)than0.015nT/mrmsper / squarerootHz;and 0 d. Compensationsystemsformagneticand ` 82 UnderwaterElectricFieldSensorsresultingina 8 3 performanceequaltoorbetterthanthecontrol  4 parametersof6A006.a,6A006.b,and6A006.c.  5  6A007Gravitymeters(gravimeters)and pH 8 gravitygradiometers,asfollows(seeListof H 9 ItemsControlled).    :  LicenseRequirements   <   ReasonforControl:NS,MT,AT X> Control(s) Q  }        - CountryChart 0@ NSappliestoentireentry   - NSColumn2 B MTappliesto6A007.band.c - MTColumn1 hD whentheaccuraciesin h@E 6A007.b.1andb.2aremet @F orexceeded G ATappliestoentireentry   - ATColumn1 I  LicenseExceptions  P (L   LVS: Q $3000;N/AforMT "N   GBS: Q N/A   "O   CIV: Q N/A   #P    % ListofItemsControlled  `%8R   Unit:$value ' T 0  RelatedControls:Seealso4M!O  5  6A1076!O3  74Ԁand4N5!!O  5  6A9976!O3  7)#'!U(#(# 0  RelatedDefinitions:N/A("V(#(#   Items: )p#W &'%%&Ga.Gravitymetersdesignedormodifiedforground H+ %Y usehavingastaticaccuracyofless(better)than10  ,%Z gal; (   Note :6A007.adoesnotcontrolground  gravitymetersofthequartzelement(Worden)  type.  b b.Gravitymetersdesignedformobileplatforms :  forground,marine,submersible,spaceorairborne   use,havingallofthefollowing:     b.1.Astaticaccuracyofless(better)than0.7 r  mgal;and rJ    b.2.Anin-service(operational)accuracyof "  less(better)than0.7mgalhavinga   time-to-steady-stateregistrationoflessthan2   minutesunderanycombinationofattendant   correctivecompensationsandmotional Z influences; Z2 c.Gravitygradiometers.#&G%%&'#&G%%&G     % O 6A008Radarsystems,equipmentand B assemblieshavinganyofthefollowing  characteristics(seeListofItemsControlled),  andspeciallydesignedcomponentstherefor.   %O#&G%%&G=# &G%%&GLicenseRequirements  zR   ReasonforControl:NS,MT,RS,AT *!       4  `      Control(s) 4  `      CountryChart "" NSappliestoentireentry   NSColumn2 $b$ #&G%%&G#&G%%&GMTappliestoitemsthat   MTColumn1 :& & aredesignedforairborne ' ' applicationsandthatare '!( usableinsystemscontrolled (") forMTreasons )r#* RSappliesto6A008.j.10 0  RSColumn1J+"%, #&G%%&G# ",%- &G%%&GATappliestoentireentry   - ATColumn1 .   LicenseRequirementNotes :See743.1of 0 theEARforreportingrequirementsforexports  d1 underLicenseExceptions. d <2 #&G%%&Gl#%G%%&G   #&G%%%G#&G%%&G LicenseExceptions   4 0  LVS:0Q(#(#$5000;N/AforMTandfor6A008.j.1  6 and6A008.l.3t7Q(#Q(#   GBS: Q Yes,for6A008.b,.c,andl.1only tL 8 0  CIV: Q Yes,for6A008.b,.c,andl.1onlyL$ 9(#(#    %  Q  } ListofItemsControlled   ;   Unit:$value       -  Y #&G%%&G#&G%%&G  = 0  RelatedControls:#&G%%&G#&G%%&GThisentrydoesnotcontrol: \> Secondarysurveillanceradar(SSR);Carradar \4? designedforcollisionprevention;Displaysor 4 @ monitorsusedforAirTrafficControl(ATC)  A havingnomorethan12resolvableelements B permm;Meteorological(weather)radar.See C also4R!O  5  6A1086!O  7ܙԀand4S!O  5  6A9986Q!Oe  7ܜ.ECCN4T:!!O  5  6A9986!O  7.#E lD controls,interalia,theLIDARequipment lDE excludedbythenotetoparagraphjofthis DF ECCN(4UM!O  5  6A0086L!O`  7A).#&G%%&G#&G%%&GԀ#&G%%&G#&G%%&GԀG(#(# Ѐ#&G%%&G_#&G%%&G0  RelatedDefinitions:N/AH(#(#   Items:#&G%%&G#Ԁ I  &G%%&GNote: 6A008doesnotcontrol: |TK   a. % Secondarysurveillanceradar(SSR); V .L   b. % CivilAutomotiveRadar; .!M   c. % Displaysormonitorsusedforairtraffic "N control(ATC)havingnomorethan12resolvable "O elementspermm; #P   d. % Meteorological(weather)radar. $fQ % V a.Operatingatfrequenciesfrom40GHzto230 >& S GHzandhavinganyofthefollowing: ' T %V  a.1. Q An averageoutputpowerexceeding ("V 100mW;or )v#W   a.2. Q Locatingaccuracyof1morless N+&%Y (better)inrangeand0.2degreeorless(better)in &,%Z azimuth;#&G%%&G# ( b.Havingatunablebandwidthexceeding6.25%  ofthecenteroperatingfrequency;    TechnicalNote :Thecenteroperating ` 8 frequencyequalsonehalfofthesumofthe :  highestplusthelowestspecifiedoperating   frequencies.   c.Capableofoperatingsimultaneouslyonmore r  thantwocarrierfrequencies; rJ  d.Capableofoperatinginsyntheticaperture "  (SAR),inversesyntheticaperture(ISAR)radar   mode,orsidelookingairborne(SLAR)radar   mode;   e.Incorporating electronicallysteerablephased Z2 arrayantennae; 2  f.Capableofheightfindingnon-cooperative  targets;    Note :6A008.fdoesnotcontrolprecision jB approachradar(PAR)equipmentconformingto D ICAOstandards.  g.Speciallydesignedforairborne(balloonor  airframemounted)operationandhavingDoppler |  signalprocessingforthedetectionofmoving |T targets; T , h.Employingprocessingofradarsignalsusing "! anyofthefollowing: ""   h.1. Radarspreadspectrumtechniques;or $d$   h.2. Radarfrequencyagilitytechniques; <& & i.Providingground-basedoperationwitha '!( maximum instrumentedrangeexceeding&  185 (") km'(F; )t#*   Note :6A008.idoesnotcontrol: L+$%,  &,%-   a.Fishinggroundsurveillanceradar; (-   b.Groundradarequipmentspeciallydesigned / forenrouteairtrafficcontrol,providedthatallthe 0 followingconditionsaremet:  `1    % 1.Ithasamaximum instrumented 8 3 rangeof500kmorless;  4    % 2.Itisconfiguredsothatradartarget  6 datacanbetransmittedonlyonewayfromthe p7 radarsitetooneormorecivilATCcenters; pH 8    % 3.Itcontainsnoprovisionsforremote   : controloftheradarscanratefromtheenroute  ; ATCcenter;and  <    % 4.Itistobepermanentlyinstalled; X>   c.Weatherballoontrackingradars. 0@ % { j.Being laserradarorLightDetectionand B Ranging(LIDAR)equipment,havinganyofthe C following: hD %{  j.1. Space-qualified;or @F &G%%&G  j.2.Employingcoherentheterodyneor H homodynedetectiontechniquesandhavingan I angularresolutionofless(better)than20rad xJ (microradians);#&G%%&G# xPK   Note :6A008.jdoesnotcontrolLIDAR (!M equipmentspeciallydesignedforsurveyingorfor "N meteorologicalobservation. "O k.Having signalprocessingsub-systemsusing $bQ  pulsecompression,withanyofthefollowing: b%:R   k.1.A pulsecompressionratioexceeding ' T 150;or '!U   k.2.Apulsewidthoflessthan200ns;or )r#W l.Havingdataprocessingsub-systemswithanyof J+"%Y thefollowing: ",%Z Ї  l.1. Automatictargettrackingproviding,at ( anyantennarotation,thepredictedtargetposition  beyondthetimeofthenextantennabeam  passage;    Note :6A008.l.1doesnotcontrolconflict ` 8 alertcapabilityinATCsystems,ormarineor :  harborradar.     l.2.Calculationoftargetvelocityfrom    primaryradarhavingnon-periodic(variable) r  scanningrates; rJ    l.3.Processingforautomaticpattern "  recognition(featureextraction)andcomparison   withtargetcharacteristicdatabases(waveforms   orimagery)toidentifyorclassifytargets;or     l.4.Superpositionandcorrelation,orfusion, Z2 oftargetdatafromtwoormore geographically 2  dispersedand interconnectedradarsensorsto   enhanceanddiscriminatetargets.    Note :6A008.l.4doesnotcontrolsystems, j equipmentandassembliesdesignedformarine lD trafficcontrol.&G%%&G D #&G%%&G# % ) 6A102 &G%%&GRadiationhardeneddetectors,other  thanthosecontrolledby6A002,specially  designedormodifiedforprotectingagainst X nucleareffects(e.g.,ElectromagneticPulse X 0 (EMP),X-rays,combinedblastandthermal 0!  effects)andusablefor missiles,designedor "! ratedtowithstandradiationlevelswhichmeet "" orexceedatotalirradiationdoseof5x105 ## rads(silicon).#&G%%&GW#  $h$ %)> LicenseRequirements  @& &   ReasonforControl:MT,AT <  h    '!(      4  `    Control(s) 4  `      CountryChart )x#* MTappliestoentireentry   MTColumn1 P+(%,  (,&- ATappliestoentireentry   - ATColumn1 (-  LicenseExceptions  /   LVS: Q N/A  `1   GBS: Q N/A   ` 82   CIV: Q N/A   8 3  ListofItemsControlled   5   Unit:Componentsinnumber p7   RelatedControls:N/A pH 8 0  RelatedDefinitions:Inthisentry,adetectoris H 9 definedasamechanical,electrical,opticalor   : chemicaldevicethatautomaticallyidentifies  ; andrecords,orregistersastimulussuchasan  < environmentalchangeinpressureor  = temperature,anelectricalorelectromagnetic X> signalorradiationfromaradioactivematerial.X0?(#(#   Items: 0@ Thelistofitemscontrollediscontainedinthe B ECCNheading. C   &G%%&G6A103Radomesdesignedtowithstanda I combinedthermalshockgreaterthan100cal/sq xJ cmaccompaniedbyapeakoverpressureof xPK greaterthan50kPa,usableinprotecting P (L  missilesagainstnucleareffects(e.g. (!M ElectromagneticPulse(EMP),Xrays, "N combinedblastandthermaleffects),andusable "O for missiles.(Theseitemsaresubjecttothe #P exportlicensingauthorityoftheU.S. $`Q DepartmentofState,DirectorateofDefense `%8R TradeControls.See22CFRpart121.) #&G%%&G9&# 8& S  % K 6A107&G%%&GGravitymeters(gravimeters)#&G%%&GS)#&G%%&GԀand#&G%%&G)#&G%%&G ("V speciallydesignedcomponentsforgravity )p#W metersandgravitygradiometers,asfollows(see p*H$X ListofItemsControlled). #&G%%&G)#  H+ %Y %K?) $,%Z  LicenseRequirements  (   ReasonforControl:MT,AT  Control(s) 4  `      CountryChart  `   MTappliestoentireentry   MTColumn1 8  ATappliestoentireentry   ATColumn1    LicenseExceptions  p    LVS: 4 N/A H    GBS: 4 N/A       CIV: 4 N/A     ListofItemsControlled      Unit:$value X0   RelatedControls:N/A 0   RelatedDefinitions:N/A    Items:   &G%%&G a.0  Gravitymeters(gravimeters),otherthanthose h controlledby6A007.b,designedormodified h@ forairborneormarineuse,andhavingastatic @ oroperationalaccuracyof7x106m/s2(0.7  milligal)orbetter,andhavingatimeto  steadystateregistrationoftwominutesor  less,usablefor missiles;x b.0  Speciallydesignedcomponentsforgravity P ( meterscontrolledin6A007.bor6A107.aand (!  gravitygradiometerscontrolledin6A007.c."! #&G%%&G.# % Q 6A108Radarsystemsandtrackingsystems, $`$ otherthanthosecontrolledby6A008,as `%8% follows(seeListofItemsControlled).  8& & %Q1 LicenseRequirements  '!(   ReasonforControl:MT,AT )p#* Control(s) 4  `      CountryChart H+ %,   ,%- MTappliestoentireentry   - MTColumn1 (- ATappliestoentireentry   - ATColumn1 /  LicenseExceptions   `1   LVS: Q N/A 8 3   GBS: Q N/A  4   CIV: Q N/A    5    %  Q  } ListofItemsControlled  p7   Unit:$value H 9 0  RelatedControls:1.)Thisentrydoesnot   : controlairbornecivilweatherradar  ; conformingtointernationalstandardsforcivil  < weatherradarsprovidedthattheydonot  = incorporateanyofthefollowing:(a)Phased X> arrayantennas;(b)Frequencyagility;(c) X0? Spreadspectrum;or(d)Signalprocessing 0@ speciallydesignedforthetrackingofvehicles. A 2.)Itemsin4e!O  5  6A108.a67!O7Def  7e,8Ԁthatarespecially B designedormodifiedfor missilesorfor C itemsontheU.S.MunitionsListaresubjectto hD theexportlicensingauthorityoftheU.S. h@E DepartmentofState,DefenseTradeControls @F (see22CFRpart121).G(#(# 0  RelatedDefinitions:Laserradarsystemsare H definedasthosethatembodyspecialized I transmission,scanning,receivingandsignal xJ processingtechniquesforutilizationoflasers xPK forechoranging,directionfindingand P (L discriminationoftargetsbylocation,radial (!M speedandbodyreflectioncharacteristics."N(#(#   Items: "O &G%%&G%  a.0  Radarandlaserradarsystemsdesignedor $`Q modifiedforusein missiles;`%8R(#(# %%<  Note :6A108.aincludesthefollowing: ' T    % a.0 Q Terraincontourmappingequipment;'!UQ(#Q(#    % b.0 Q Imagingsensorequipment;("VQ(#Q(#    % c.0 Q Scenemappingandcorrelation(both )r#W digitalandanalog)equipment;r*J$XQ(#Q(#    % d.0 Q Dopplernavigationradarequipment.J+"%YQ(#Q(#  ",%Z b.0  Precisiontrackingsystems,usablefor #&G%%&G<#&G%%&G rockets, ( missiles,orunmannedaerialvehiclescapable  ofachievinga rangeequaltoorgreaterthan  300km#&G%%&Gh?#&G%%&G,asfollows:   b.1.Trackingsystemswhichuseacode d < translator#&G%%&Gf@#&'%%&Ginstalledontherocketorunmanned <   b  aerialbAԀvehicle#&G%%&')A#&G%%&GԀinconjunctionwitheithersurfaceor   airbornereferencesornavigationsatellitesystems   toprovidereal-timemeasurementsofin-flight    positionandvelocity; t    b.2.Rangeinstrumentationradarsincluding L$  associatedoptical/infraredtrackerswithallofthe $  followingcapabilities:         b.2.a.Angularresolutionbetterthan3   milliradians ; \     b.2.b.Rangeof30kmorgreaterwitha 4  rangeresolutionbetterthan10mrms;       b.2.c.Velocityresolutionbetterthan3  m/s.XX%&G l #&G%XX"E##&G%%&GA#&G%%&G#&G%%&GE#         % * 6A202Photomultipliertubeshavingbothof  thefollowingcharacteristics(seeListofItems | Controlled).  |T %*F LicenseRequirements  ,!    ReasonforControl:NP,AT "" Control(s) 4  `      CountryChart $d$   NPappliestoentireentry   NPColumn1 <& & ATappliestoentireentry   ATColumn1 '!(  LicenseExceptions  )t#*   LVS: 4 N/A L+$%,   GBS: 4 N/A $,%-   CIV: Q N/A (-  ListofItemsControlled  /   Unit:Number  `1 0  RelatedControls:SeeECCNs4XP!!O  5  6E0016I!OJ  70#/J ` 82 ( development),4YC!O  5  6E0026J!OJ  7kK( production),and 8 3 4Z!O  5  6E2016K!OK  7KԀ( use)fortechnologyforitems  4 controlledunderthisentry. 5(#(#   RelatedDefinitions:N/A  6   Items: p7 a.Photocathodeareaofgreaterthan20cm2;and H 9 b.Anodepulserisetimeoflessthan1ns.  ;   % 5 6A203Camerasandcomponents,otherthan X> thosecontrolledby6A003,asfollows(seeListof X0? ItemsControlled).  0@ %5M LicenseRequirements  B   ReasonforControl:NP,AT hD Control(s) Q  }        - CountryChart @F   NPappliestoentireentry   - NPColumn1 H ATappliestoentireentry   - ATColumn1 xJ  LicenseExceptions  P (L   LVS: Q N/A "N   GBS: Q N/A   "O   CIV: Q N/A #P  ListofItemsControlled  `%8R 0  Unit:Equipmentandcomponentsinnumber; ' T partsandaccessoriesin$value'!U(#(# 0  RelatedControls:(1)SeeECCNs4[Q!!O  5  6E0016R!O(R  71#VR ("V ( development),4\C!O  5  6E0026R!OR  7#,SԀ( production),and )p#W 4]!O  5  6E2016S!OS  7TԀ( use)fortechnologyforitems p*H$X controlledunderthisentry.(2)Alsosee H+ %Y ECCN4!O  5  6A003.a.26T!OUR  7d /U,4di!O  5  a.36U!OUpmen  7veEU,and4d!O  5  a.46KV!O_Vpmen  7veV.  ,%Z(#(#   RelatedDefinitions:N/A (   Items:  a.Mechanicalrotatingmirrorcameras,as  follows,andspeciallydesignedcomponents  ` therefor: ` 8   a.1.Framingcameraswithrecordingrates   greaterthan225,000framespersecond;     a.2.Streakcameraswithwritingspeeds p  greaterthan0.5mmpermicrosecond; pH    Note: Componentsofcamerascontrolledby    6A203.aincludetheirsynchronizingelectronics   unitsandrotorassembliesconsistingofturbines,   mirrorsandbearings.   b.Electronicstreakcameras,electronicframing Z2 cameras,tubesanddevices,asfollows: 2    b.1.Electronicstreakcamerascapableof50  nsorlesstimeresolution;    b.2.Streaktubesforcamerascontrolledby jB 6A203.b.1; B   b.3.Electronic(orelectronicallyshuttered)  framingcamerascapableof50nsorlessframe  exposuretime; z   b.4.Framingtubesandsolidstateimaging R * devicesforusewithcamerascontrolledby *!  6A203.b.3,asfollows: "!     b.4.a.Proximityfocusedimageintensifier ## tubeshavingthephotocathodedepositedona $b$ transparentconductivecoatingtodecrease b%:% photocathodesheetresistance; :& &     b.4.b.Gatedsiliconintensifiertarget '!( (SIT)videcontubes,whereafastsystemallows (") gatingthephotoelectronsfromthephotocathode )r#* beforetheyimpingeontheSITplate; r*J$+     b.4.c.KerrorPockelscellelectrooptical ",%- shuttering; (-    % b.4.d.Otherframingtubesandsolidstate / imagingdeviceshavingafastimagegatingtimeof 0 lessthan50nsspeciallydesignedforcameras  `1 controlledby6A203.b.3. ` 82 c.RadiationhardenedTVcameras,orlenses  4 therefor,speciallydesignedorratedasradiation  5 hardenedtowithstandatotalradiationdosegreater  6 than50x103Gy(silicon)(5x106rad(silicon)) p7 withoutoperationaldegradation. pH 8   TechnicalNote: ThetermGy(silicon)refers   : totheenergyinJoulesperkilogramabsorbedby  ; anunshieldedsiliconsamplewhenexposedto  < ionizingradiation.  =  % D 6A205 Lasers, laseramplifiersand 2 @ oscillators,otherthanthosecontrolledby  A 0B001.g.5,0B001.h.6,orO\ X{N J  \Ԁ6A005,asfollows(see B ListofItemsControlled).N#\   Jc#O#{X \c#  C %D'c LicenseRequirements  ~E   ReasonforControl:NP,AT V.G Control(s) Q  }        - CountryChart J   NPappliestoentireentry   - NPColumn1  fL ATappliestoentireentry   - ATColumn1 >"N  LicenseExceptions  #P   LVS: Q N/A %vR Ѐ  GBS: Q N/A v&N S   CIV: Q N/A N'&!T  ListofItemsControlled  ("V &G%%&G  #&G%%&Gog#O\ X{N J  \Unit: Q EquipmentinnumberN#\   Jg#N J  \O# 2X  Jg#O J X 2 )#W 0  RelatedControls:(1)SeeECCNs4aQ!!O  5  6E0016h!Oitry  7Co1#4i *$X ( development),4bCoC!O  5  6E0026i!Oitry  7Co# jԀ( production),and +^%Y 4cCo!O  5  6E2016j!Ojtry  7CojԀ( use)fortechnologyforitems ^,6&Z(#(# controlledunderthisentry.(2)Alsosee ( ECCNs4haN!O  5  6A0056k!Ok_  7B lԀand4dCo !O  5  6A9956l!Oltry  7Co l.(3)SeeECCN  4ia!O  5  6A005.a.26Tm!Ohm_  7mԀforadditionalcontrolsonargon  ionlasersN#\   JIh#N J  \O# 2X  Jh#O J X 2;SeeECCN4j !O  5  6A005.b.6.b6n!On_  7^oԀfor  additionalcontrolsonneodymiumdoped   lasers.(4) Lasersspeciallydesignedor  W preparedforuseinisotopeseparationare W / subjecttotheexportlicensingauthorityofthe /  NuclearRegulatoryCommission(see10CFR   part110).O# 2X  Jn#N#{XX 2en#     RelatedDefinitions:N/A     Items: g  a.Argonion lasershavingbothofthe ?  followingcharacteristics:     a.1.Operatingatwavelengthsbetween400   nmand515nm;and w   a.2.Anaverageoutputpowergreaterthan40 O' W; ' O\ X{N J  \b.Tunablepulsedsingle-modedyelaser  oscillatorshavingallofthefollowing  characteristics:    b.1.Operatingatwavelengthsbetween600 s nmand800nm; d   b.2.Havinganaverageoutputgreaterthan nF 1W; _ 7   b.3Arepetitionrategreaterthan1kHz;and A"    b.4.Pulsewidthlessthan100ns;O# 2X  Js#O J X 2N#\   J1s#N J  \ $" O# 2X  Jgu#O J X 2N#\   Ju#N J  \c.[RESERVED]N#\   JCv#O#{X \v#N 2XX{O J X 2 %$ d.Pulsedcarbondioxide lasershavingallof 'z!& thefollowingcharacteristics: (k"'   d.1.Operatingatwavelengthsbetween9,000 u*M$) nmand11,000nm; f+>%*  W,/&+   d.2.Arepetitionrategreaterthan250Hz; (+   d.3.Anaverageoutputpowergreaterthan500  - W;and .   d.4.Pulsewidthoflessthan200ns;  0 e.ParahydrogenRamanshiftersdesignedto z R2 operateat16micrometeroutputwavelengthandat R *3 arepetitionrategreaterthan250Hz.O# 2X  Jv#N#{XX 2v#O\ X{N J  \; *4 f.Neodymium-doped(otherthanglass)laserswith  6 anoutputwavelengthbetween1000and1100nm  7 havingeitherofthefollowing:  8   f.1.Pulse-excitedandQ-switchedwithapulse  : durationequaltoorgreaterthan1ns,andhaving ; eitherofthefollowing: <    % f.1.a.Asingle-transversemodeoutput r> withanaverageoutputpowergreaterthan40W;or c?    % f.1.b.Amultiple-transversemodeoutput mEA withanaverageoutputpowergreaterthan50W; ^6B or 6C 0  f.2.0%(#(#IncorporatingfrequencydoublingtogiveE%(#%(# anoutputwavelengthbetween500and550nm F withanaverageoutputpowerofgreaterthan40W. nG N#\   J/z#O#{X \z# 6A225Velocityinterferometersformeasuring n FH velocitiesexceeding1km/sduringtimeintervals F!I oflessthan10microseconds.  "J  LicenseRequirements  #L   ReasonforControl:NP,AT ~%VN Control(s) Q  }        - CountryChart .'!P NPappliestoentireentry   - NPColumn1 ("R ATappliestoentireentry   - ATColumn1 *f$T  LicenseExceptions  >,&V Ї  LVS: 4 N/A (   GBS: 4 N/A    CIV: 4 N/A   ListofItemsControlled   ` 0  Unit:Equipmentinnumber;partsand 8  accessoriesin$value  0  RelatedControls:SeeECCNs4!O  5  6E0016!O  7ł   ( development),4 !O  5  6E0026Y!Om  7 Ԁ( production),and    4!O  5  6E20162!OF  7tԀ( use)fortechnologyforitems p  controlledunderthisentry.pH    RelatedDefinitions:N/A H  0  ECCNControls:6A225includesvelocity    interferometers,suchasVISARs(Velocity   interferometersystemsforanyreflector)and   DLIs(Dopplerlaserinterferometers).    Items: X Thelistofitemscontrollediscontainedinthe 0 ECCNheading.    6A226Pressuresensors,asfollows(seeListof h ItemsControlled).  h@  LicenseRequirements     ReasonforControl:NP,AT  Control(s) 4  `      CountryChart xP   NPappliestoentireentry   NPColumn1 (!  ATappliestoentireentry   ATColumn1 ""  LicenseExceptions  $`$   LVS: 4 N/A 8& &   GBS: 4 N/A ' '   CIV: 4 N/A  '!(  ListofItemsControlled  )p#* 0  Unit:Equipmentinnumber;partsand H+ %, accessoriesin$value ,%- &'%%&GXX%&'0  #&'%XX #RelatedControls:SeeECCNs4P!!O  5  6E0016~!O  70# (- ( development),4C!O  5  6E0026T!Oh  7#Ԁ( production),and . 4k!O  5  6E2016-!OA  7oԀ( use)fortechnologyforitems / controlledunderthisentry.#&G%%&'#0(#(#   RelatedDefinitions:N/A  `1   Items: ` 82 a.Manganingaugesforpressuresgreaterthan100  4 kilobars;or  5 b.Quartzpressuretransducersforpressures p7 greaterthan100kilobars. pH 8  %  6A991Marineorterrestrialacoustic   : equipment,n.e.s.,capableofdetectingor  ; locatingunderwaterobjectsorfeaturesor  < positioningsurfacevesselsorunderwater  = vehicles;andspeciallydesignedcomponents, X> n.e.s.  X0? %Ï LicenseRequirements  A   ReasonforControl:AT C Control(s) Q  }        - CountryChart h@E   ATappliestoentireentry   - ATColumn2 G  LicenseExceptions  I   LVS: Q N/A xPK   GBS: Q N/A P (L   CIV: Q N/A   (!M  ListofItemsControlled  "O   Unit:$value $`Q   RelatedControls:N/A `%8R   RelatedDefinitions:N/A 8& S   Items: ' T Thelistofitemscontrollediscontainedinthe ("V ECCNheading. )p#W  % + 6A992OpticalSensors,notcontrolled_$$by  ,%Z 6A002.  ( %+ LicenseRequirements   &G%%&G  ReasonforControl:AT,RS  ` Control(s) 4  `  0 0  0  CountryChart8  ATappliestoentireentry 0  ATColumn1  RSappliestoentireentry.Alicenseisrequired p  foritemscontrolledbythisentryforexportor pH  reexporttoIraqortransferwithinIraqforregional H  stabilityreasons.TheCommerceCountryChart    isnotdesignedtodetermineRSlicense   requirementsforthisentry.See742.6and   746.3oftheEARforadditionalinformation.#&G%%&G#       LicenseExceptions  X0   LVS: 4 N/A    GBS: 4 N/A    CIV: 4 N/A    ListofItemsControlled  h@ 0  Unit:Equipmentinnumber;partsand  accessoriesin$value   RelatedControls:N/A    RelatedDefinitions:N/A x   Items: xP a.Imageintensifiertubesandspeciallydesigned (!  componentstherefor,asfollows: "!   a.1.Imageintensifiertubeshavingallthe ## following: $`$     a.1.a.Apeakresponseinwavelength 8& & rangeexceeding400_$$nm_$$,butnotexceeding1,050 ' ' _$$nm_$$; '!(     a.1.b.Amicrochannelplateforelectron )p#* imageamplificationwithaholepitch p*H$+ (center-to-centerspacing)oflessthan25 H+ %, micrometers;and  ,%- Ї   % a.1.c.Havinganyofthefollowing: !  (-    %  Q a.1.c.1.AnS-20,S-25or_$$multialkali_$$ / _$$photocathode_$$;or 0    %  Q a.1.c.2.A_$$GaAs_$$Ԁor_$$GaInAs_$$ ` 82 _$$photocathode_$$; 8 3   a.2.Speciallydesignedmicrochannelplates  5 havingbothofthefollowingcharacteristics:  6    % a.2.a.15,000ormorehollowtubesper pH 8 plate;and H 9    % a.2.b.Holepitch(center-to-centerspacing)  ; oflessthan25micrometers.  < b.Directviewimagingequipmentoperatinginthe X> visibleorinfraredspectrum,incorporatingimage X0? intensifiertubeshavingthecharacteristicslistedin 0@ 6A992.a.1. A  6A993Cameras,notcontrolledby6A003or hD 6A203,asfollows(seeListofItemsControlled).  h@E  LicenseRequirements  G ̀  ReasonforControl:AT I Controls Q  }        - CountryChart xPK ATappliestoentireentry   - ATColumn1 (!M  LicenseExceptions  "O ̀LVS:N/A $`Q ЀGBS:N/A `%8R ЀCIV:N/A 8& S  ListofItemsControlled  '!U   Unit:Number )p#W   RelatedControls:N/A p*H$X   RelatedDefinitions:N/A H+ %Y   Items:  ,%Z +"    a.CamerasthatmeetthecriteriaofNote3to  6A003.b.4.  b.[RESERVED]  `  % < 6A994Optics,notcontrolledby6A004.    %< LicenseRequirements       ReasonforControl:AT oH  Control(s) 4  `      CountryChart       ATappliestoentireentry   ATColumn1    LicenseExceptions  X   LVS: 4 N/A /   GBS: 4 N/A    CIV: 4 N/A    ListofItemsControlled  h 0  Unit:Equipmentinnumber;partsand ? accessoriesin$value   RelatedControls:N/A    RelatedDefinitions:N/A    Items: x a.Opticalfilters: O (   a.1.Forwavelengthslongerthan250_$$nm_$$, !! comprisedofmulti-layeropticalcoatingsand "" havingeitherofthefollowing: ##     a.1.a.Bandwidthsequaltoorlessthan1 _%8% _$$nm_$$ԀFullWidthHalfIntensity(_$$FWHI_$$)andpeak 7& & transmissionof90%ormore;or ' '     a.1.b.Bandwidthsequaltoorlessthan (") 0.1_$$nm_$$Ԁ_$$FWHI_$$Ԁandpeaktransmissionof50%or )p#* more; o*H$+   Note: 6A994doesnotcontrolopticalfilters ,%- withfixedairgapsor_$$Lyot_$$-typefilters. '-   a.2.Forwavelengthslongerthan250_$$nm_$$,and / havingallofthefollowing: 0    % a.2.a.Tunableoveraspectralrangeof500 _ 82 _$$nm_$$Ԁormore; 7 3    % a.2.b.Instantaneousopticalbandpassof  5 1.25_$$nm_$$Ԁorless;  6    % a.2.c.Wavelengthresettablewithin0.1ms oH 8 toanaccuracyof1_$$nm_$$Ԁorbetterwithinthetunable G 9 spectralrange;and  :    % a.2.d.Asinglepeaktransmissionof91%  < ormore;  =   a.3.Opticalopacityswitches(filters)witha W0? fieldofviewof30$orwiderandaresponsetime /@ equaltoorlessthan1ns; A b. Fluoridefibercable,oropticalfiberstherefor, C havinganattenuationoflessthan4dB/kminthe hD wavelengthrangeexceeding1,000_$$nm_$$Ԁbutnot g@E exceeding3,000_$$nm_$$. ?F   % E #&'%%&G6A995 Lasers(seeListofItemsControlled).#&G%%#&' #%E  I  LicenseRequirements  wPK   ReasonforControl:AT '!M Control(s) Q  }        - CountryChart "O    % ATappliestoentireentry   - ATColumn1 $`Q  LicenseExceptions  7& S   LVS: Q N/A '!U   GBS: Q N/A ("V   CIV: Q N/A )p#W   ListofItemsControlled  G+ %Y  ,%Z 0  Unit:Equipmentinnumber;partsand ' accessoriesin$value   RelatedControls:N/A    RelatedDefinitions:N/A    Items:  ` a.Carbondioxide(CO2) lasershavinganyof 7  thefollowing:   0  a.1.ACWoutputpowerexceeding10kW;     a.2.Apulsedoutputwitha pulseduration oH  exceeding10microseconds;and G      a.2.a.Anaverageoutputpowerexceeding   10kW;or       a.2.b.Apulsed peakpowerexceeding X 100kW;or W0   a.3.Apulsedoutputwitha pulseduration  equaltoorlessthan10microseconds;and      a.3.a.Apulseenergyexceeding5Jper h pulseand peakpowerexceeding2.5kW;or g@     a.3.b.Anaverageoutputpower  exceeding2.5kW;  b.Semiconductorlasers,asfollows: x   b.1.Individual,single-transversemode O ( semiconductor lasershaving: '!      b.1.a.Anaverageoutputpowerexceeding "" 100_$$mW_$$;or ## 0  0b.1.b.Awavelengthexceeding1,050_$$nm_$$;_%8%   b.2.Individual,multiple-transversemode ' ' semiconductor lasers,orarraysofindividual '!( semiconductor lasers,havingawavelength (") exceeding1,050_$$nm_$$; )p#* c.Ruby lasershavinganoutputenergy G+ %, exceeding20Jperpulse; ,%- Їd.Non- tunable pulsedlasershavinganoutput '- wavelengthexceeding975_$$nm_$$Ԁbutnotexceeding . 1,150_$$nm_$$Ԁandhavinganyofthefollowing: /   d.1.A pulsedurationequaltoorexceeding  `1 1nsbutnotexceeding1_$$s_$$,andhavinganyofthe _ 82 following: 7 3    % d.1.a.Asingletransversemodeoutputand  5 havinganyofthefollowing:  6    %  Q d.1.a..1.Awall-plugefficiency oH 8 exceeding12%andan averageoutputpower G 9 exceeding10Wandcapableofoperatingata  : pulserepetitionfrequencygreaterthan1kHz;or  ;    %  Q d.1.a..2.An averageoutputpower  = exceeding20W;or X>    % d.1.b.Amultipletransversemodeoutput /@ andhavinganyofthefollowing: A    %  Q d.1.b.1.Awall-plugefficiency C exceeding18%andan averageoutputpower hD exceeding30W; g@E    %  Q d.1.b.2.A peakpowerexceeding200 G MW;or H    %  Q d.1.b.3.An averageoutputpower xJ exceeding50W;or wPK   d.2.A pulsedurationexceeding1_$$s_$$Ԁand '!M havinganyofthefollowing: !N    % d.2.a.Asingletransversemodeoutputand #P havinganyofthefollowing: $`Q    %  Q d.2.a.1.Awall-plugefficiency 7& S exceeding12%andan averageoutputpower ' T exceeding10Wandcapableofoperatingatapulse '!U repetitionfrequencygreaterthan1kHz;or ("V    %  Q d.2.a.2.An averageoutputpower o*H$X exceeding20W;or G+ %Y  ,%Z _$$    d.2.b.Amultipletransversemodeoutput ' andhavinganyofthefollowing:       4 d.2.b.1.Awall-plugefficiency  exceeding18%andan averageoutputpower  ` exceeding30W;or _ 8      4 d.2.b.2.An averageoutputpower   exceeding500W;   e.Non- tunablecontinuouswave (CW)lasers, p  havinganoutputwavelengthexceeding975nm oH  butnotexceeding1,150nmandhavinganyofthe G  following:     e.1.Asingletransversemodeoutputand   havinganyofthefollowing:       e.1.a.Awall-plugefficiencyexceeding W0 12%andan averageoutputpowerexceeding10 / Wandcapableofoperatingatapulserepetition  frequencygreaterthan1kHz;or      e.1.b.An averageoutputpower h exceeding50W;or g@   e.2.Amultipletransversemodeoutputand  havinganyofthefollowing:      e.2.a.Awall-plugefficiencyexceeding x 18%andan"averageoutputpower"exceeding30 wP W;or O (     e.2.b.An averageoutputpower !! exceeding500W; "" 0  0 Note: 6A995.e.2.bdoesnotcontrol $`$ multipletransversemode,industrial a%:% "lasers"withoutputpowerlessthano 9& & equalto2kWwithatotalmassgreater ' ' than1,200kg.Forthepurposeofthis '!( note,totalmassincludesallcomponents (") requiredtooperatethe"laser",e.g., )r#* "laser",powersupply,heatexchanger, q*J$+ butexcludesexternalopticsforbeam I+"%, conditioningand/ordelivery.!,%- ddf.Non tunable lasers,havingawavelength . exceeding1,400nm,butnotexceeding1555nm / andhavinganyofthefollowing: 0   f.1.Anoutputenergyexceeding100mJper _ 82 pulseandapulsed peakpowerexceeding1W; 7 3 or  4   f.2.AnaverageorCWoutputpower  6 exceeding1W. p7 &G%%&G % I 6A996 Magnetometersnotcontrolledby  : ECCN6A006, Superconductive  ; electromagneticsensors,andspeciallydesigned  < componentstherefor,asfollows(seeListof  = ItemsControlled).  X> %I LicenseRequirements  3 @   ReasonforControl:AT B Control(s) Q  }        - CountryChart lD   ATappliestoentireentry   - ATColumn1 CF  LicenseExceptions  H   LVS: Q N/A J   GBS: Q N/A XK   CIV: Q N/A   W 0L    %  Q ListofItemsControlled  "N   Unit:$value #P   RelatedControls:N/A $hQ   RelatedDefinitions:N/A g%@R   Items: ?& S a. Magnetometers,n.e.s.,havinga noiselevel '!U (sensitivity)lower(better)than1.0nTrmsper ("V squarerootHz. )x#W b. Superconductiveelectromagneticsensors, O+(%Y componentsmanufacturedfrom superconductive ',&Z materials: '   b.1.Designedforoperationattemperatures  belowthe criticaltemperatureofatleastoneof  their superconductiveconstituents(including  ` Josephsoneffectdevicesor superconductive _ 8 quantuminterferencedevices(SQUIDS)); 7    b.2.Designedforsensingelectromagnetic   fieldvariationsatfrequenciesof1KHzorless;    and p    b.3.Havinganyofthefollowing G  characteristics:       b.3.a.Incorporatingthin-filmSQUIDS   withaminimumfeaturesizeoflessthan2%mand   withassociatedinputandoutputcouplingcircuits; X     b.3.b.Designedtooperatewitha / magneticfieldslewrateexceeding1x106  magneticfluxquantapersecond;      b.3.c.Designedtofunctionwithout h magneticshieldingintheearthsambient g@ magneticfield;or ?     b.3.d.Havingatemperaturecoefficient  less(smaller)than0.1magneticfluxquantum/K.   % L 6A997Gravitymeters(gravimeters)for O ( grounduse,n.e.s.  '!  %L LicenseRequirements  ""   ReasonforControl:AT $`$ Control(s) 4  `      CountryChart 7& &   ATappliestoentireentry   ATColumn1 '!(  LicenseExceptions  )p#*   LVS: 4 N/A K+$%,   GBS: 4 N/A  #,%-   CIV: Q N/A       -  '-  ListofItemsControlled  /   Unit:$value  `1   RelatedControls:N/A _ 82   RelatedDefinitions:N/A 7 3   Items:  4 a.Havingastaticaccuracyofless(better)than  6 100microgal;or p7 b.Beingofthequartzelement(Worden)type. G 9  % P 6A998 Radarsystems,equipmentand  < assemblies,n.e.s.,#&G%%&G#&G%%&GԀ(seeListofItemsControlled),  = andspeciallydesignedcomponentstherefor.#&G%%&G#&G%%&G  \> %PC LicenseRequirements  3 @   ReasonforControl:RS,AT B Control(s) Q  }        - CountryChart lD RSappliestoparagraph.b0  0-(#(#RSColumn1CF-(#-(# ATappliestoentireentry   - ATColumn1 H  LicenseExceptions  |J   LVS: Q N/A W 0L   GBS: Q N/A   /!M   CIV: Q N/A   "N    %  Q  }   ListofItemsControlled  #P   Unit:$value g%@R   RelatedControls:N/A ?& S   RelatedDefinitions:N/A ' T   Items: '!U #&G%%&Ge#&G%%&Ga.Airborneradarequipment,n.e.s.,andspecially )x#W designedcomponentstherefor.#&G%%&G#&G%%&G w*P$X b.#&G%%&GZ# Space-qualified laserradarorLight ',&Z DetectionandRanging(LIDAR)equipment ' speciallydesignedforsurveyingorfor  meteorologicalobservation.  &G%%&G#&G%%&G# 6A999Specificprocessingequipment,as _ 8 follows(seeListofItemsControlled). 7  LicenseRequirements      ReasonforControl:AT p  Control(s) 4  `    CountryChart G  ATappliestoentireentry.Alicenseisrequired   foritemscontrolledbythisentrytoNorthKorea   forantiterrorismreasons.TheCommerce   CountryChartisnotdesignedtodetermineAT X licensingrequirementsforthisentry.See742.19 W0 oftheEARforadditionalinformation. /  LicenseExceptions     LVS: 4 N/A h   GBS: 4 N/A g@   CIV: 4 N/A ?  ListofItemsControlled     Unit:$value x 0  RelatedControls:&'%%&GSeealso4l !O  5  6A2036W!OkN/A  7#&G%%&'/#ԀwP   RelatedDefinitions:N/A O (   Items: '!    &'%%&Ga.#&G%%&'#ԀSeismicdetectionequipment; "" b.&'%%&GԀRadiationhardenedTVcameras,n.e.s.#&G%%&'H# $`$   B.TEST,INSPECTIONAND '!( PRODUCTIONEQUIPMENT  (")  6B004Opticalequipment,asfollows(seeList G+ %, ofItemsControlled).  ,%- Ї LicenseRequirements  '-   ReasonforControl:NS,AT / Control(s) Q  }        - CountryChart  `1    % NSappliestoentireentry   - NSColumn2 7 3 ATappliestoentireentry   - ATColumn1  5  LicenseExceptions  p7   LVS: Q $5000 G 9   GBS: Q Yesfor6B004.b  :   CIV: Q Yesfor6B004.b -   ;  ListofItemsControlled   =   Unit:Number W0? 0  RelatedControls:Thisentrydoesnotcontrol /@ microscopes.A(#(# 0  RelatedDefinitions:N/AB(#(#   Items: C a.Equipmentformeasuringabsolutereflectanceto g@E anaccuracyof0.1%ofthereflectancevalue; ?F b.Equipmentotherthanopticalsurfacescattering H measurementequipment,havinganunobscured I apertureofmorethan10cm,speciallydesignedfor xJ thenon-contactopticalmeasurementofa wPK non-planaropticalsurfacefigure(profile)toan O (L  accuracyof2nmorless(better)againstthe '!M requiredprofile. !N  6B007Equipmenttoproduce,alignand $`Q calibrateland-basedgravitymeterswithastatic _%8R accuracyofbetterthan0.1mgal.  7& S  LicenseRequirements  '!U   ReasonforControl:NS,AT )p#W Control(s) Q  }        - CountryChart G+ %Y    ,%Z NSappliestoentireentry   NSColumn2 ' ATappliestoentireentry   ATColumn1   LicenseExceptions   `   LVS: 4 $5000 7    GBS: 4 N/A     CIV: 4 N/A      ListofItemsControlled  p    Unit:Number G    RelatedControls:N/A     RelatedDefinitions:N/A     Items:   Thelistofitemscontrollediscontainedinthe X ECCNheading. W0  6B008Pulseradarcross-sectionmeasurement  systemshavingtransmitpulsewidthsof100ns  orlessandspeciallydesignedcomponents h therefor.  g@  LicenseRequirements     ReasonforControl:NS,MT,AT  Control(s) 4  `      CountryChart wP NSappliestoentireentry   NSColumn2 '!  MTappliestoentireentry   MTColumn1 "" ATappliestoentireentry   ATColumn1 $`$  LicenseExceptions  7& &   LVS: 4 N/A '!(   GBS: 4 N/A (")   CIV: 4 N/A )p#*  ListofItemsControlled  G+ %,  ,%-   Unit:Number '-   RelatedControls:Seealso4n !O  5  6B10867!OK   7y .   RelatedDefinitions:N/A /   Items: 0 Thelistofitemscontrollediscontainedinthe _ 82 ECCNheading. 7 3  &G%%&G% m 6B108Systems,otherthanthosecontrolledby  6 6B008,speciallydesignedforradarcrosssection p7 measurementusablefor rockets,missiles,or oH 8 unmannedaerialvehiclescapableofachieving G 9 a rangeequaltoorgreaterthan300kmand  : theirsubsystems.%m#&G%%&G#&G%%&G   ;  LicenseRequirements   =   ReasonforControl:MT,AT W0? Control(s) Q  }        - CountryChart A    % MTappliestoentireentry   - MTColumn1 C ATappliestoentireentry   - ATColumn1 g@E  LicenseExceptions  G   LVS: Q N/A I   GBS: Q N/A   xJ   CIV: Q N/A wPK  ListofItemsControlled  '!M   Unit:Number "O   RelatedControls:N/A #P   RelatedDefinitions:N/A $`Q   Items: _%8R Thelistofitemscontrollediscontainedinthe ' T ECCNheading. '!U  6B995Speciallydesignedormodified o*H$X equipment,includingtools,dies,fixturesor G+ %Y gauges,andotherspeciallydesigned ,%Z componentsandaccessoriestherefor.  '  LicenseRequirements     ReasonforControl:AT  ` Control(s) 4  `      CountryChart 7      ATappliestoentireentry   ATColumn1    LicenseExceptions  p    LVS: 4 N/A G    GBS: 4 N/A     CIV: 4 N/A    ListofItemsControlled    0  Unit:Equipmentinnumber;partsand W0 accessoriesin$value/   RelatedControls:N/A    RelatedDefinitions:N/A    Items:  a.Forthemanufactureorinspectionof: g@   a.1.Freeelectron lasermagnetwigglers;    a.2.Freeelectron laserphotoinjectors;  b.Fortheadjustment,torequiredtolerances,of wP thelongitudinalmagneticfieldoffreeelectron O (  lasers. '!      C.MATERIALS  $`$  6C002Opticalsensormaterials,asfollows(see ' ' ListofItemsControlled).  '!(  LicenseRequirements  )p#*   ReasonforControl:NS,AT G+ %,  ,%- Control(s) Q  }        - CountryChart '-   NSappliestoentireentry   - NSColumn2 / ATappliestoentireentry   - ATColumn1  `1  LicenseExceptions  7 3   LVS: Q $3000  5   GBS: Q N/A  6   CIV: Q N/A   p7  ListofItemsControlled  G 9   #&G%%&G#Unit:Number  ;   RelatedControls:Seealso4p !O  5  6C9926!O   7J  <   RelatedDefinitions:N/A  =   Items: X> a.Elementaltellurium(Te)ofpuritylevelsof /@ 99.9995%ormore; A b.Singlecrystals(includingepitaxialwafers)of C anyofthefollowing: hD   b.1.Cadmiumzinctelluride(CdZnTe),with ?F zinccontentlessthan6%bymolefraction; G   b.2.Cadmiumtelluride(CdTe)ofanypurity I level;or xJ   b.3.Mercurycadmiumtelluride(HgCdTe)of O (L anypuritylevel. '!M ̀   % TechnicalNote :Molefractionisdefined "O astheratioofmolesofZnTetothesumofthe #P molesofCdTeandZnTepresentinthecrystal. $bQ  6C004Opticalmaterials,asfollows(seeListof ' T ItemsControlled).  '!U  LicenseRequirements  )r#W   ReasonforControl:NS,AT I+"%Y  !,%Z Control(s) 4  `      CountryChart '   NSappliestoentireentry   NSColumn2  ATappliestoentireentry   ATColumn1  `  LicenseExceptions  7    LVS: 4 $1500     GBS: 4 Yesfor6C004.aand.e    Ѐ  CIV: 4 Yesfor6C004.aand.e p   ListofItemsControlled  G    Unit:$value     RelatedControls:Seealso4r!O  5  6C9946-!OA   7o     RelatedDefinitions:N/A     Items: X a.Zincselenide(ZnSe)andzincsulphide(ZnS) /  substrateblanksproducedbythechemical  vapordepositionprocess,havinganyofthe  following:    a.1.Avolumegreaterthan100cm3;or g@   a.2.Adiametergreaterthan80mmhavinga  thicknessof20mmormore;  b.Boulesofthefollowingelectro-opticmaterials: x   b.1.Potassiumtitanylarsenate(KTA); O (   b.2.Silvergalliumselenide(AgGaSe2); !!   b.3.Thalliumarsenicselenide(Tl3AsSe3,also ## knownasTAS); $`$ c.Non-linearopticalmaterials,havingallofthe 7& & following: ' '   c.1.Thirdordersusceptibility(chi3)of10-6 (") m2/V2ormore;and )p#*   c.2.Aresponsetimeoflessthan1ms; G+ %,  ,%- d. Substrateblanksofsiliconcarbideor '- berylliumberyllium(Be/Be)depositedmaterials . exceeding300mmindiameterormajoraxis / length; 0 e.Glass,includingfusedsilica,phosphateglass, _ 82 fluorophosphateglass,zirconiumfluoride(ZrF4) 7 3 andhafniumfluoride(HfF4),havingallofthe  4 following:  5   e.1.Ahydroxylion(OH-)concentrationof p7 lessthan5ppm; oH 8   e.2.Integratedmetallicpuritylevelsofless  : than1ppm;and  ;   e.3.Highhomogeneity(indexofrefraction  = variance)lessthan5x10-6; X> f.Syntheticallyproduceddiamondmaterialwith /@ anabsorptionoflessthan10-5cm-1forwavelengths A exceeding200nmbutnotexceeding14,000nm. B  6C005Syntheticcrystalline laserhost I materialinunfinishedform,asfollows(seeList xJ ofItemsControlled).  wPK  LicenseRequirements  '!M   ReasonforControl:NS,AT "O Control(s) Q  }        - CountryChart $`Q   NSappliestoentireentry   - NSColumn2 7& S ATappliestoentireentry   - ATColumn1 '!U  LicenseExceptions  )p#W   LVS: Q $1500 G+ %Y   GBS: Q N/A ,%Z   CIV: 4 N/A  '  ListofItemsControlled     Unit:Kilograms  `   RelatedControls:N/A _ 8   RelatedDefinitions:N/A 7    Items:   a.Titaniumdopedsapphire;    b.Alexandrite. oH      % o 6C992Opticalsensingfibersnotcontrolledby   6A002.d.3whicharemodifiedstructurallyto   haveabeatlengthoflessthan500mm(high   birefringence)oropticalsensormaterialsnot X describedin6C002.bandhavingazinccontent W0 ofequaltoormorethan6%bymole / fraction. &G%%&G  %o, LicenseRequirements     ReasonforControl:AT g@ Control(s) 4  `      CountryChart      ATappliestoentireentry   ATColumn1   LicenseExceptions  wP   LVS: 4 N/A '!    GBS: 4 N/A !!   CIV: 4 N/A ""   ListofItemsControlled  $`$ 0  Unit:Equipmentinnumber;partsand 7& & accessoriesin$value' '   RelatedControls:N/A '!( 0  RelatedDefinitions:#&G%%&G}.#Molefractionis (") definedastheratioofmolesofZnTetothe )p#* sumofthemolesofCdTeandZnTepresent o*H$+ inthecrystal.&G%%&GԀ2)#&G%%&G2#Beatlengthisthedistance G+ %, overwhichtwoorthogonallypolarized,%- signals,initiallyinphase,mustpassinorderto '- achievea2Piradian(s)phasedifference.&G%%&G.(#(#   Items: / Thelistofitemscontrollediscontainedinthe  `1 ECCNheading. _ 82    % % q 6C994Opticalmaterials.%q5   6  LicenseRequirements  oH 8   ReasonforControl:AT  : Control(s) Q  }        - CountryChart  < ATappliestoentireentry   - ATColumn1 X>  LicenseExceptions  /@   LVS: Q N/A B   GBS: Q N/A C   CIV: Q N/A hD   ListofItemsControlled  ?F 0  Unit:Equipmentinnumber;partsand H accessoriesin$valueI(#(#   RelatedControls:N/A xJ 0  RelatedDefinitions:#&G%%&G4#&G%%&G1)Fluoridefibersare wPK fibersmanufacturedfrombulkfluoride O (L compounds.2)Opticalfiberpreformsare '!M bars,ingots,orrodsofglass,plasticorother !N materialsthathavebeenspeciallyprocessed "O foruseinfabricatingopticalfibers.The #P characteristicsofthepreformdeterminethe $`Q basicparametersoftheresultantdrawnoptical _%8R fibers.#&G%%&G8#&G%%&G7& S(#(#   Items: ' T a.Lowopticalabsorptionmaterials,asfollows: ("V   a.1.Bulkfluoridecompoundscontaining o*H$X ingredientswithapurityof99.999%orbetter;or G+ %Y  ,%Z   Note: 6C994.a.1controlsfluoridesof ' zirconiumoraluminumandvariants.    a.2.Bulkfluorideglassmadefrom  compoundscontrolledby6C004.e.1;  b b.Opticalfiberpreformsmadefrombulk 9  fluoridecompoundscontainingingredientswitha   purityof99.999%orbetter,speciallydesignedfor   themanufactureoffluoridefiberscontrolledby    6A994.b. r        D.SOFTWARE    >  #&G%%&G:#&G%%&G% C 6D001 Softwarespeciallydesignedforthe Z  developmentor productionofequipment Y2 controlledby6A004,6A005,6A008or6B008.  1  %CQ?#&G%%&G2?# &G%%&GLicenseRequirements     ReasonforControl:NS,MT,NP,RS,#&G%%&Gj@#&G%%&GԀAT j Control(s) 4  `      CountryChart A   NSappliesto software   NSColumn1  forequipmentcontrolled  by6A004,6A005,6A008or z 6B008 yR MTappliesto software   MTColumn1 )!  forequipmentcontrolled "! by6A008or6B008forMT "" Ѐreasons ## NPappliesto software   NPColumn1 a%:% forequipmentcontrolled 9& & by6A005forNPreasons ' ' RSappliesto software0 0  RSColumn1(") forequipmentcontrolledby )r#* 6A008.j.1#&G%%&GA#&G%%&G q*J$+ ATappliestoentireentry   ATColumn1 !,%- Ї  LicenseRequirementNotes :See743.1of '- theEARforreportingrequirementsforexports . underLicenseExceptions#&G%%&GD#&G%%&G /  #&G%%&G@F#%G%%&G   %  Q  } #&G%%%GF#&G%%&G LicenseExceptions   d1 #&G%%&GG#  CIV: Q N/A ; 3   TSR:0 Q Yes,exceptforthefollowing: 5Q(#Q(#   0 % 0Q%(#%(#1)ItemscontrolledforMTreasons; 6Q(#Q(#    % 0 Q 2) Softwarespeciallydesignedfor t7 the developmentor productionof sL 8  spacequalified laserradaror K$ 9 LightDetectionandRanging(LIDAR) # : equipmentdefinedin6A008.j.1;or ;Q(#Q(#    % 0 Q 3)Exportsorreexportstodestinations  < outsideofAustria,Belgium,Canada,  = Denmark,Finland,France,Germany, \> Greece,Ireland,Italy,Japan, [4? Luxembourg,theNetherlands, 3 @ Portugal,Spain,Sweden,ortheUnited  A Kingdomof softwarespecially B designedforthe developmentor C  productionofequipmentcontrolled lD by6A008.l.3or6B008.kDEQ(#Q(# &G%%&G ListofItemsControlled  G   Unit:$value I 0  #&G%%&G   h.2. Softwareforthedesignor production /@ ofradomeswhich: A    % h.2.a.Arespeciallydesignedtoprotectthe C  electronicallysteerablephasedarrayantennae hD controlledby6A008.e.;and g@E    % h.2.b.Resultinanantennapatternhaving G an averagesidelobelevelmorethan40dB H belowthepeakofthemainbeamlevel. I   TechnicalNote : Averagesidelobelevelin wPK 6D003.h.2.bismeasuredovertheentirearray Q *L excludingtheangularextentofthemainbeamand )!M thefirsttwosidelobesoneithersideofthemain "N beam.#&G%%&Gw#&G%%&G "O   % } 6D102 Softwarespeciallydesignedor a%:R modifiedforthe useofgoodscontrolledby 9& S 6A108.#&G%%&G_#&G%%&G  ' T %} LicenseRequirements  ("V   ReasonforControl:MT,AT q*J$X Control(s) Q  }        - CountryChart I+"%Y    !,%Z MTappliestoentireentry   MTColumn1 ' ATappliestoentireentry   ATColumn1   LicenseExceptions   `   CIV: 4 N/A 7    TSR: 4 N/A    ListofItemsControlled       Unit:$value oH    RelatedControls:N/A G    RelatedDefinitions:N/A     Items:   Thelistofitemscontrollediscontainedinthe   ECCNheading. X  %  6D103 Softwarethatprocessespost-flight,  recordeddata,enablingdeterminationof  vehiclepositionthroughoutitsflightpath,  speciallydesignedormodifiedfor missiles.#&G%%&Gg#&G%%&G  h % LicenseRequirements  ?   ReasonforControl:MT,AT  Control(s) `      CountryChart x   MTappliestoentireentry   MTColumn1 O ( ATappliestoentireentry   ATColumn1 !!  LicenseExceptions  ##   CIV: 4 N/A _%8%   TSR: 4 N/A  7& &  ListofItemsControlled  '!(   Unit:$value )p#* Thelistofitemscontrollediscontainedinthe G+ %, ECCNheading. ,%- Ї#&G%%&G#&G%%&G  % u 6D991 Softwarespeciallydesignedforthe .  development, production,or useof / equipmentcontrolledby6A002.e,6A991, 0 6A996,6A997,or6A998.%uX#&G%%&G)#&G%%&G   `1  LicenseRequirements  7 3   ReasonforControl:RS,AT  5 Control(s) Q  }        - CountryChart p7 RSappliesto softwarefor0 - RSColumn1G 9-(#-(# equipmentcontrolledby  : 6A002.eor6A998.b  ; ATappliestoentireentry,   - ATColumn1  = except softwarefor X> equipmentcontrolledby W0? 6A991 /@ ATappliesto softwarefor - ATColumn2 B equipmentcontrolledby C 6A991 hD  LicenseExceptions  ?F   CIV: Q N/A H   TSR: Q N/A   I  ListofItemsControlled  {TK   Unit:$value +!M   RelatedControls:N/A "N   RelatedDefinitions:N/A "O   Items: #P Thelistofitemscontrollediscontainedinthe c%<R ECCNheading. ;& S #&G%%&G#&G%%&G % | 6D992 Softwarespeciallydesignedforthe s*L$X  developmentor productionofequipment K+$%Y controlledby6A992,6A994,or6A995. #,%Z %|' LicenseRequirements     ReasonforControl:AT  Control(s) 4  `      CountryChart _ 8 ATappliestoentireentry   ATColumn1    LicenseExceptions       CIV: 4 N/A oH    TSR: 4 N/A  G   ListofItemsControlled      Unit:$value     RelatedControls:N/A X   RelatedDefinitions:N/A W0   Items: / Thelistofitemscontrollediscontainedinthe  ECCNheading.   %  6D993Other softwarenotcontrolledby  6D003.   %~ LicenseRequirements  wP   ReasonforControl:AT '!  Control(s) 4  `      CountryChart ""     ATappliestoentireentry   ATColumn1 $`$  LicenseExceptions  7& &   CIV: 4 N/A '!(   TSR: 4 N/A (")   ListofItemsControlled  o*H$+   Unit:Equipmentinnumber;partsand   ,%-   accessoriesin$value '-   RelatedControls:N/A .   RelatedDefinitions:N/A /   Items: 0 a.AirTrafficControl(ATC) software _ 82 application programshostedongeneralpurpose 7 3 computerslocatedatAirTrafficControlcenters,  4 andcapableofautomaticallyhandingoverprimary  5 radartargetdata(ifnotcorrelatedwithsecondary  6 surveillanceradar(SSR)data)fromthehostATC p7 centertoanotherATCcenter; oH 8   E.TECHNOLOGY   < G  #&G%%&G# &G%%&G% 2 6E001 TechnologyaccordingtotheGeneral W0? TechnologyNoteforthe developmentof /@ equipment,materialsor softwarecontrolled A by6A(except6A991,6A992,6A994,6A995, B 6A996,6A997,or6A998),6B(except6B995),6C C (except6C992or6C994),or6D(except6D991, hD 6D992,or6D993).  g@E %2ߜ LicenseRequirements  G   ReasonforControl:NS,MT,NP,RS,CC, I AT,UN xJ Control(s) Q  }        - CountryChart O (L   NSappliesto technology   - NSColumn1 !N foritemscontrolledby "O 6A001to6A008,6B004to #P 6B008,6C002to6C005, $`Q or6D001to6D003 _%8R MTappliesto technology - MTColumn1 ' T foritemscontrolledby '!U 6A002,6A007,6A008, ("V 6A102,6A107,6A108, )p#W 6B008,6B108,6D001, o*H$X 6D002,6D102or G+ %Y 6D103forMTreasonsXX%&G ,%Z ЇNPappliesto technology  NPColumn1 ' forequipmentcontrolledby  #&G%XX#6A003,6A005,6A202,  6A203,6A205,6A225,  6A226or6D001for   NPreasons  ` RSappliesto technology   RSColumn1 7  forequipmentcontrolledby   6A002.a.1,.a.2,.a.3,.c,or    .e,6A003.b.3or.b.4,   or6A008.j.1 p  CCappliesto technology   CCColumn1 G  forequipmentcontrolledby   6A002forCCreasons   ATappliestoentireentry   ATColumn1  UNappliesto technology 0  Iraq,NorthW0 forequipmentcontrolledby  Korea,and / 6A002or6A003forUN   Rwanda  reasons    LicenseRequirementNotes :See743.1of h theEARforreportingrequirementsforexports kD underLicenseExceptions. C  LicenseExceptions     CIV: 4 N/A |   TSR: 4 Yes,exceptforthefollowing: { T      4 1)ItemscontrolledforMTreasons; S!,      0 4 2) Technologyforcommodities +"! controlledby6A002.e,6A004.e,or #" 6A008.j.1;##44 0    043) Technologyfor software $$ speciallydesignedfor space %d% qualified laserradarorLight c&< & DetectionandRanging(LIDAR) ;'!' equipmentdefinedin6A008.j.1and (!( controlledby6D001or6D002;(")44 0    044)Exportsorreexportsto )#* destinationsoutsideofAustria, *t$+ Belgium,Canada,Denmark,Finland, s+L%, France,Germany,Greece,Ireland,K,$&-44 Italy,Japan,Luxembourg,the '- Netherlands,Portugal,Spain,Sweden, . ortheUnitedKingdomof /  technologyforthe developmentof 0 thefollowing:(a)Itemscontrolledby  `1 6A001.a.1.b.1,6A001.a.2.a.1, _ 82 6A001.a.2.a.2,6A001.a.2.a.3, 7 3 6A001.a.2.a.5,  4 6A001.a.2.a.6,6A001.a.2.b,  5 6A001.a.2.e.,6A002.a.1.c,6A008.l.3,  6 6B008,6D003.a;(b)Equipment p7 controlledby6A001.a.2.cor oH 8 6A001.a.2.fwhenspeciallydesigned G 9 forrealtimeapplications;or(c)  :  Softwarecontrolledby6D001and  ; speciallydesignedforthe  <  developmentor productionof  = equipmentcontrolledby6A008.l.3or X> 6B008;orW0?Q(#Q(#    % 0 Q 5)ExportsorreexportstoRwanda./@Q(#Q(# #&G%%&G#&G%%&G  #&G%%&G-#&G%%&G ListofItemsControlled  B   Unit:N/A hD 0  RelatedControls:#&G%%&G# Technologyaccordingto g@E theGeneralTechnologyNoteforthe ?F  developmentofthefollowingcommodities G is&G%%&Gsubjecttotheexportlicensingauthorityof H theDepartmentofState,Directorateof I DefenseTradeControls(22CFRpart121)#&G%%&G#&G%%&G:#&G%%&G#&G%%&GԀ#&G%%&G+#&G%%&G xJ  Spacequalified#&G%%&Gn#&G%%&GԀ1.)#&G%%&Gܳ#&G%%&GԀComponentsforoptical wPK systemsdefinedin4O !O  5  6A004.c6!O ?  7´Ԁandopticalcontrol O (L equipmentdefinedin4`!O  5  6A004.d.16j!O~ ?  7h#&G%%&G"#&G%%&G.#&G%%&G;#&G%%&G;#&G%%&G~#Ԁ2.)Solid '!M statedetectorsdefinedin4!O  5  6A002.a.16!O ?  7>, imaging !N sensors(e.g., monospectralimagingsensors "O and multispectralimagingsensors)defined #P in4 !O  5  6A002.b.2.b.16c!Ow ?  7,andcryocoolersdefinedin $`Q 4F !O  5  6A002.d.16F!OZemen  7quNԀunlessonorafterSeptember23, _%8R 2002,theDepartmentofStateissuesa 7& S commodityjurisdictiondetermination ' T assigningtheexportlicensingauthoritytothe '!U DepartmentofCommerce,BureauofIndustry ("V andSecurity.&G%%&GԀ#&G%%&G.#&G%%&GԀ#&G%%&Gr#&G%%&GSeealso4qu!O  5  6E1016޻!Oemen  7qu ,4qu5!O  5  6E2016!Oemen  7qu̼,and )p#W 4qu!O  5  6E9916N!Obemen  7quo*H$X(#(#   RelatedDefinitions:N/A G+ %Y   Items: ,%Z ЇThelistofitemscontrollediscontainedinthe ' ECCNheading.#&G%%&G#&G%%&G  #&G%%&G# &G%%&G% 3 6E002 TechnologyaccordingtotheGeneral  ` TechnologyNoteforthe productionof _ 8 equipmentormaterialscontrolledby6A 7  (except6A991,6A992,6A994,6A995,6A996,   6A997or6A998),6B(except6B995)or6C   (except6C992or6C994).     %3v LicenseRequirements  oH    ReasonforControl:NS,MT,NP,RS,CC,   AT,UN   Control(s) 4  `      CountryChart     NSappliesto technology 0  NSColumn1W0 forequipmentcontrolledby / 6A001to6A008,6B004to  6B008,or6C002to6C005XX%&G  #&G%XX#MTappliesto technology  MTColumn1 | forequipmentcontrolledby {T 6A002,6A007,6A008,6A102, S, 6A107,6A108,6B008,or + Ѐ6B108forMTreasonsXX%&G  #&G%XXL#NPappliesto technology 0  NPColumn1 forequipmentcontrolledby x 6A003,6A005,6A202,6A203, w P 6A205,6A225or6A226for O!(  NPreasonsXX%&G '"! #&G%XX#RSappliesto technology 0  RSColumn1## forequipmentcontrolledby $$ 6A002.a.1,.a.2,.a.3,.cor.e, %t% 6A003.b.3or.b.4,or6A008.j.1XX%&G s&L & #&G%XX#CCappliesto technology 0  CCColumn17("( forequipmentcontrolledby )") 6A002forCCreasonsXX%&G )#* #&G%XX#ATappliestoentireentry   ATColumn1 +%, XX%&G ,\&- #&G%XX#UNappliesto technology  0 - Iraq,North'--(#-(# forequipmentcontrolledby - Korea,and . 6A002or6A003forUN   - Rwanda / reasonsXX%&G 0   #&G%XX#LicenseRequirementNotes :See743.1of s L2 theEARforreportingrequirementsforexports O (3 underLicenseExceptions. ' 4   LicenseExceptions   6   CIV: Q N/A ` 8   TSR: Q Yes,exceptforthefollowing: _8 9    %  Q 1)ItemscontrolledforMTreasons; 7 :    % 0 Q 2) Technologyforcommodities  ; controlledby6A002.e,6A004.e,  < 6A008.j.1; =Q(#Q(# 0   % 0Q(#(#3)Exportsorreexportstodestinations p> outsideofAustria,Belgium,Canada, oH? Denmark,Finland,France,Germany, G @ Greece,Ireland,Italy,Japan, A Luxembourg,theNetherlands, B Portugal,Spain,Sweden,ortheUnited C Kingdomof technologyforthe D  developmentofthefollowing:(a) XE Itemscontrolledby6A001.a.1.b.1, W0F 6A001.a.2.a.1,6A001.a.2.a.2, /G 6A001.a.2.a.3,6A001.a.2.a.5, H 6A001.a.2.a.6,6A001.a.2.b,and I 6A001.a.2.c;and(b)Equipment J controlledby6A001.a.2.eand hK 6A001.a.2.fwhenspeciallydesigned g @L forrealtimeapplications;or(c) ?!M  Softwarecontrolledby6D001and "N speciallydesignedforthe "O  developmentor productionof #P equipmentcontrolledby6A002.a.1.c, $xQ 6A008.l.3or6B008;orw%PRQ(#Q(#    % 0 Q 4)ExportsorreexportstoRwanda.O&( SQ(#Q(# #&G%%&GW# ListofItemsControlled  '!U   Unit:N/A )#W 0  RelatedControls: Technologyaccordingto *`$X theGeneralTechnologyNoteforthe _+8%Y  productionofthefollowingcommoditiesis 7,&Z(#(# &G%%&Gsubjecttotheexportlicensingauthorityofthe ' DepartmentofState,DirectorateofDefenseTrade  Controls(22CFRpart121)whenintendedforuse  onasatellite#&G%%&GA#&G%%&G:#&G%%&Ga#&G%%&GԀ#&G%%&G#&G%%&GԀ Spacequalified#&G%%&G#&G%%&GԀ#&G%%&GA#&G%%&G1.)#&G%%&G#&G%%&GԀComponents  foropticalsystemsdefinedin4qu!O  5  6A004.c6'!O;  7WiԀandoptical  ` controlequipmentdefinedin4͢!O  5  6A004.d.16!O%  7ͪS#&G%%&G#&G%%&G.#&G%%&G#&G%%&G;#&G%%&G%#Ԁ2.) _ 8 Solidstatedetectorsdefinedin4!O  5  6A002.a.16!O  7 , 7   imagingsensors(e.g., monospectralimaging   sensorsand multispectralimagingsensors)   definedin4!O  5  6A002.b.2.b.16 !O  7K,andcryocoolersdefined    in4!O  5  6A002.d.16!O  7.ԀunlessonorafterSeptember23, p  2002,theDepartmentofStateissuesacommodity oH  jurisdictiondeterminationassigningtheexport G  licensingauthoritytotheDepartmentof   Commerce,BureauofIndustryandSecurity.&G%%&GԀ#&G%%&G#&G%%&GԀ#&G%%&G#&G%%&GԀ#&G%%&GG#&G%%&GԀ#&G%%&G#&G%%&G   Seealso4͏!O  5  6E9926 !O  7oM.    RelatedDefinitions:N/A     Items: X Thelistofitemscontrollediscontainedinthe / ECCNheading.#&G%%&G#    6E003Other technology,asfollows(seeList ? ofItemsControlled).    LicenseRequirements     ReasonforControl:NS,AT wP Control(s) 4  `      CountryChart '!    NSappliestoentireentry   NSColumn1 "" ATappliestoentireentry   ATColumn1 $`$  LicenseExceptions  7& &   CIV: 4 N/A  '!(   TSR: 4 Yes  (")  ListofItemsControlled  G+ %,  ,%-   Unit:N/A '-   RelatedControls:Seealso4Ͷ !O  5  6E9936V!Oj  7͖ .   RelatedDefinitions:N/A /   Items: 0 a.Acoustics.None. _ 82 b.Opticalsensors.None.  4 c.Cameras.None.  6 d.Optics, technology,asfollows: oH 8   d.1.Opticalsurfacecoatingandtreatment  :  technology requiredtoachieveuniformityof  ; 99.5%orbetterforopticalcoatings500mmor  < moreindiameterormajoraxislengthandwitha  = totalloss(absorptionandscatter)oflessthan5x X> 10-3; W0?    N.B.: Seealso2E003.f. A   d.2.Opticalfabrication technologyusing C singlepointdiamondturningtechniquestoproduce jD surfacefinishaccuraciesofbetterthan10nmrms iBE onnon-planarsurfacesexceeding0.5m2; AF    %  Q  }        - e.Lasers. Technology requiredforthe H  development, productionor useofspecially I designeddiagnosticinstrumentsortargetsintest zJ facilitiesfor SHPLtestingortestingor yRK evaluationofmaterialsirradiatedby SHPL Q *L beams; )!M f.MagneticandElectricFieldSensors.None "O g.Gravimeters.None $bQ h.Radar.None 9& S %  6E101 TechnologyaccordingtotheGeneral ("V TechnologyNoteforthe useofequipmentor )r#W  softwarecontrolledby6A002,6A007.band.c, q*J$X 6A008,6A102,6A107,6A108,6B108,6D102or I+"%Y 6D103.  !,%Z % LicenseRequirements     ReasonforControl:MT,AT  Control(s) 4  `      CountryChart _ 8   MTappliestoentireentry   MTColumn1   ATappliestoentireentry   ATColumn1     LicenseExceptions  oH    CIV: 4 N/A      TSR: 4 N/A     ListofItemsControlled      Unit:N/A W0   RelatedControls:N/A / 0  RelatedDefinitions:&G%%&GԀ1.)Thisentryonly  controls technologyforequipment  controlledby6A008whenitisdesignedfor  airborneapplicationsandisusablein h  missiles.2.)Thisentryonlycontrols g@  technologyforitemsin6A002.a.1,a.3,and ? .ethatarespeciallydesignedormodifiedto  protect missilesagainstnucleareffects  (e.g.,ElectromagneticPulse(EMP),Xrays,  combinedblastandthermaleffects),and x usablefor missiles.3.)Thisentryonly wP controls technologyforitemsin6A007.b O ( and.cwhentheaccuraciesin6A007.b.1and '!  b.2aremetorexceeded.#&G%%&GA#!! Ѐ  Items: "" Thelistofitemscontrollediscontainedinthe $`$ ECCNheading. _%8% % 4 6E201 TechnologyaccordingtotheGeneral ' ' TechnologyNoteforthe useofequipment '!( controlledby6A003.a.2.6A003.a.3,6A003.a.4; (") 6A005.a.2,6A005.b.2.b,N 2XX{O J X 26A005.b.3.a, )p#* 6A005.b.4.b,6A005.b.6.b,6A005.c.1.b, *{$+ 6A005.c.2.b,6A005.d.3.c,or6A005.d.4.c(as +l%, describedinthelicenserequirementnoteto ', 6A005);6A202,6A203,6A205,6A225or6A226. O# 2X  J#N#{XX 2# - %4 LicenseRequirements  /   ReasonforControl:NP,AT  1 Control(s) Q  }        - CountryChart W 03 NPappliestoentireentry   - NPColumn1 5 ATappliestoentireentry   - ATColumn1  7  LicenseExceptions  g@ 9   CIV: Q N/A    ;   TSR: Q N/A  <  ListofItemsControlled  x>   Unit:N/A O(@   RelatedControls:N/A 'A   RelatedDefinitions:N/A B 0  ECCNControls:Thisentryonlycontrols C  technologyfor lasersin6A005thatare D controlledforNPreasons.`E(#(#   Items: _8F Thelistofitemscontrollediscontainedinthe H ECCNheading. I  %  6E991 Technologyforthe development, o!HL  productionor useofequipmentcontrolled G" M by6A991,6A996,6A997,or6A998.  #N %&G%%&G LicenseRequirements  $P   ReasonforControl:RS,AT &X R Control(s) Q  }        - CountryChart /("T RSappliesto technology0  0-(#(#RSColumn1)#V-(#-(# forequipmentcontrolledby *$W 6A998.b. +h%X    g,@&Y ATappliestoentireentry   ATColumn1 ' except technologyfor  equipmentcontrolledby6A991  ATappliesto technology   ATColumn2  ` for#&G%%&G#&G%%&GԀequipmentcontrolled _ 8 by6A991 7   LicenseExceptions      CIV: 4 N/A  t    TSR: 4 N/A  sL   ListofItemsControlled  #    Unit:N/A     RelatedControls:N/A     RelatedDefinitions:N/A \   Items: [4 Thelistofitemscontrollediscontainedinthe   ECCNheading.  #&G%%&G#&G%%&G %  6E992 Technologyforthe developmentor kD  productionofequipment,materialsor C  softwarecontrolledby6A992,6A994,or  6A995,6B995,6C992,6C994,or6D993.   % LicenseRequirements  |   ReasonforControl:AT S , Control(s) 4  `      CountryChart "!   ATappliestoentireentry   ATColumn1 ##   LicenseExceptions  c%<%   CIV: 4 N/A ' '   TSR: 4 N/A  '!(  ListofItemsControlled  )t#*   Unit:$value K+$%,   RelatedControls:N/A #,%-   RelatedDefinitions:N/A '-   Items: . Thelistofitemscontrollediscontainedinthe 0 ECCNheading.  `1  %  6E993Other technology,notcontrolledby  4 6E003,asfollows(seeListofItemsControlled).   5 %s LicenseRequirements  p7   ReasonforControl:AT G 9 Control(s) Q  }        - CountryChart  ;    % ATappliestoentireentry   - ATColumn1  =  LicenseExceptions  W0?   CIV: Q N/A A   TSR: Q N/A B  ListofItemsControlled  hD   Unit:N/A ?F   RelatedControls:N/A G   RelatedDefinitions:N/A H   Items: I a.Opticalfabricationtechnologiesforserially wPK producingopticalcomponentsatarateexceeding O (L 10m2ofsurfaceareaperyearonanysinglespindle '!M andwith: !N   a.1.Anareaexceeding1m2;and #P   a.2.Asurfacefigureexceedinglambda/10rms _%8R atthedesignedwavelength; 7& S b. Technologyforopticalfilterswitha '!U bandwidthequaltoorlessthan10nm,afieldof ("V view(FOV)exceeding40$andaresolution )p#W exceeding0.75linepairspermilliradian; o*H$X c. Technologyforthe developmentor ,%Z  productionofcamerascontrolledby6A993; ' d. Technology requiredforthe   developmentor productionofnon-triaxial  fluxgate magnetometersornon-triaxialfluxgate  `  magnetometersystems,havinganyofthe _ 8 following: 7    d.1.A noiseleveloflessthan0.05nTrms   persquarerootHzatfrequenciesoflessthan1    Hz;or p  Ї  d.2.A noiseleveloflessthan1x10-3nT '  rmspersquarerootHzatfrequenciesof1Hzor   more.    EAR99ItemssubjecttotheEARthatarenot _ 8 elsewherespecifiedinthisCCLCategoryorin 7  anyothercategoryintheCCLaredesignated   bythenumberEAR99. #&G%%&G#