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W. Chen1 |
Designing and processing for position sensitive silicon detectors. |
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G. De Geronimo |
Low noise monolithic integrated circuits.
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R.P. Di Nardo |
Electrical and optical coatings, detector fabrication, and specialized materials processing; training coordination & quality assurance. |
| |
J. Fried |
Experiment control and data acquisition system design. |
| |
J.A. Harder |
High speed electronics, monolithic circuits, analog and digital system design. |
| |
A.T. Hrisoho2 |
Visiting Senior Scientist: signal processing and noise in physical measurements; detectors and electronics. |
| |
S.S. Junnarkar |
Signal processing electronics, high speed data acquisition. |
| |
A. Kandasamy |
Monolithic circuits, CAD, testing; design automation. |
| |
J.A. Kierstead |
Radiation effects in optical and semiconductor material and devices. |
| |
Z. Li |
Fabrication methodology for position sensitive silicon detectors; physics of detector grade material; device physics and radiation hardness. |
| |
D. Makowiecki |
Detector grade material; device physics; radiation hardness. |
| |
J.A. Mead |
Signal processing electronics and low background counting systems. |
| |
P. O’Connor |
Monolithic circuits, signal processing electronics, semiconductor device physics. |
| |
J-F. Pratte |
Low noise monolithic integrated circuits. |
| |
S. Qian |
Design and development of high precision optical metrology instrumentation. |
| |
V. Radeka |
Signal processing and noise in physical measurements; detectors and electronics. |
| |
P. Rehak |
Physics of particle and radiation detectors; semiconductor detectors. |
| |
S. Rescia |
Signal processing and noise in physical measurements; detectors and electronics. |
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N.A. Schaknowski |
Development of high resolution, gas-filled, radiation detectors and ultra-high vacuum systems. |
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J. Smedley |
Generation and characterization of high brightness, ultra short electron bunches |
| |
G.C. Smith |
Physics of and electronics for advanced ionization detectors; applications of such detectors to particle physics, solid state physics, and biology. |
| |
T. Srinivasan-Rao |
Short pulse, high power, IR, visible and UV lasers, laser driven photocathodes for electron gun and switching applications, electro-optic sampling and generation of coherent short pulse XUV, x-ray radiation. |
| |
F.W. Stubblefield |
Multiprocessor operating systems, high-speed data acquisition electronics and computer interfaces, medical electronics for flow microfluorometry. |
| |
P.Z. Takacs |
Optical design and testing; figure and finish metrology of grazing incidence optical components; scattering of x-rays from smooth surfaces and its relation to surface topography. |
| |
T.Y.F. Tsang |
Ultrafast laser spectroscopy; high-intensity laser-matter interaction; surface-enhanced spectroscopy; nonlinear optics; fiber optics; optical detectors for high energy physics. |
| |
J.B. Warren |
Analytical electron microscopy, including SEM, EDX, microdiffraction, and computer simulation of crystal defect images, fabrication of microstructures. |
| |
B. Yu |
Physics of and electronics for advanced ionization detectors; applications of such detectors to particle physics, solid state physics and biology. |
| |
Q. Zhao |
Design and testing of S band RF injectors; electron beam diagnostics. |
1 : Physics Department
2 : Linear Accelerator Laboratory, Orsay, France
One of ten national laboratories overseen and primarily
funded by the Office of Science of the U.S. Department of Energy (DOE), Brookhaven
National Laboratory conducts research in the physical, biomedical, and environmental
sciences, as well as in energy technologies and national security. Brookhaven Lab also
builds and operates major scientific facilities available to university, industry and
government researchers. Brookhaven is operated and managed for DOE’s Office of Science by
Brookhaven Science Associates, a limited-liability company founded by Stony Brook University,
the largest academic user of Laboratory facilities, and Battelle, a nonprofit, applied science
and technology organization.