Research Highlights Sorted by Title
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"Radiance Assimilation" Correction Method Improves Water Vapor Radiosonde Observations in the Upper Troposphere
Soden, B. J., University of Miami -
"Roobik" Is Part of the Answer, Not a Puzzle
Turner, D. D., University of Wisconsin-Madison -
A "Little" Respect: Droplet Nucleation Finally Included in Global Climate Model
Ghan, S. J., Pacific Northwest National Laboratory -
A Bulk Parameterization of Giant Cloud Condensation Nuclei
Kogan, Y., University of Oklahoma, CIMMS -
A Climatology of Midlatitude Continental Cloud Properties and Their Impact on the Surface Radiation Budget
Dong, X., University of North Dakota -
A Comparison of Integrated Water Vapor Sensors: WVIOP-96
Liljegren, J. C., Argonne National Laboratory -
A Consistency Analysis of ARESE Aircraft Measurements
Li, Z., University of Maryland -
A Deeper Look Into Shallow Boundary Layer Clouds
Bretherton, C. S., University of Washington -
AERI-ER at the SHEBA Ice Station: Far Infrared H2O Continuum
Revercomb, H. E., University of Wisconsin-Madison -
AERI Instrument Status and Analysis Results: 1998
Revercomb, H. E., University of Wisconsin-Madison -
Aerosol Effects on Liquid-Water Path of Thin Stratocumulus Clouds
Penner, J. E., University of Michigan, Lee, S., University of Michigan at Ann Arbor -
Aerosol Experiment Results Featured in Technical Journal
Sheridan, P., US Department of Commerce/NOAA -
Aerosols Help Clouds Warm Up Arctic
Lubin, D., National Science Foundation -
An Affordable, Flexible, and More Accurate Method for Computing Radiative Transfer
Pincus, R., NOAA-CIRES Climate Diagnostics Center -
An Assessment of the ECMWF Model over the Arctic Land Using Observations from the Mixed-Phase Arctic Cloud Experiment
Xie, S., Lawrence Livermore National Laboratory -
Anthropogenic Aerosols: a Clearer Understanding
Daum, P., Brookhaven National Laboratory -
A Proposed Measurement Standard for Diffuse Radiation Flux
Michalsky, J. J., DOC/NOAA/OAR/ESRL -
Arctic Aerosol Study Flies By
Schmid, B., Pacific Northwest National Laboratory -
ARM-Funded Algorithms Lead to Marked Improvements in Global Weather Forecast Model
Morcrette, J. J., European Centre for Medium-Range Weather Forecasts -
ARM M-PACE Data Used to Evaluate and Improve Arctic Mixed-Phase Clouds Simulated in Climate Models
Xie, S., Lawrence Livermore National Laboratory -
ARM Measurements Validate New Satellite Multilayer Cloud Remote Sensing Method
Minnis, P., NASA Langley Research Center -
ARM Observations Validate Climate Model for Tropical Cirrus Clouds
Comstock, J. M., Pacific Northwest National Laboratory -
ARM Program Achieves Milestone in Global Cloud Properties Research
Revercomb, H. E., University of Wisconsin-Madison -
ARM Program Research Improves Longwave Radiative Transfer Models
Turner, D. D., University of Wisconsin-Madison -
ARM Program Surface Measurements for Aerosol Profiles Shown to Represent Integrated Column Measurements
Andrews, E., NOAA/CMDL -
ARM QCRad Goes Global
Long, C. N., Pacific Northwest National Laboratory -
ARM Science Applications of AERI Measurements
Smith, W. L., NASA Langley Research Center -
ARM Science Applications of AERI Measurements: 1997 Progress
Smith, W. L., NASA Langley Research Center -
ARM Sites Enable Assessment of Cluster Analysis for Identifying Cloud Regimes
Jakob, C., BMRC -
A Simple Algorithm to Find Cloud Optical Depth Applied to Thin Ice Clouds
Barnard, J. C., Pacific Northwest National Laboratory, Long, C. N., Pacific Northwest National Laboratory, Kassianov, E., Pacific Northwest National Laboratory, McFarlane, S. A., Pacific Northwest National Laboratory, Comstock, J. M., Pacific Northwest National Laboratory, Freer, M., University of Illinois, McFarquhar, G., University of Illinois -
A Simple Stochastic Model for Generating Broken Cloud Optical Depth and Cloud Top Height Fields
Marshak, A., NASA Goddard Space Flight Center -
Assessment of CloudSat Using ARM, AMF, and CloudNet Observations
Protat, A., Bureau of Meteorology, May, P. T., Bureau or Meteorology, O'Connor, E. J., University of Reading -
A Surprising Problem with Thin Liquid Water Clouds
Turner, D. D., University of Wisconsin-Madison -
Atmospheric Aerosol Measurements on Cloudy Days: a New Method
Kassianov, E., Pacific Northwest National Laboratory, Ovtchinnikov, M., Pacific Northwest National Laboratory -
Bell-Shaped Curve Captures Cloud System Variability
Lamb, P. J., The University of Oklahoma -
Biases in Column Absorption for Fractal Clouds
Wiscombe, W. J., Brookhaven National Laboratory -
Broadband Albedo Observations in the Southern Great Plains
Lamb, P. J., The University of Oklahoma -
Can Ice-Nucleating Aerosols Affect Arctic Seasonal Climate?
Prenni, A. J., Colorado State University -
Characterization of Atmospheric Aerosols Using MFRSR Measurements
Alexandrov, M. D., Columbia University -
Characterizing Mixed-Phase Clouds from the Ground: a Status Report
Shupe, M., CIRES/NOAA/ETL -
Characterizing the Co-Existence of Water and Ice in Arctic Clouds
McFarquhar, G., University of Illinois -
Classifying Cloud Phase
Shupe, M., CIRES/NOAA/ETL -
Climate Warming Due to Soot and Smoke? Maybe Not.
Penner, J. E., University of Michigan -
Cloud-Radiation Effects on Sea Ice Loss
Stephens, G. L., Colorado State University -
Cloud Boundary Detection and Analysis from Micro Pulse Lidar
Spinhirne, J., NASA/Goddard Space Flight Center -
Cloud Ensemble Simulation with the ARM IOP Data
Xu, K., NASA Langley Research Center -
Cloud Observations at Niamey During the AMF Deployment
Kollias, P., McGill University -
Cloud Phase Determination Using Ground-Based AERI Observations at SHEBA
Turner, D. D., University of Wisconsin-Madison -
Cloud Regimes in the TWP and Their Evolution over the MJO
Del Genio, A. D., NASA Goddard Institute for Space Studies -
Cloud Susceptibility Measures Potential Cloud Sensitivity to First Aerosol Indirect Effect
Oreopoulos, L., UMBC, Platnick, S., NASA GSFC -
Cloud Tomography: a Novel Method for Determining 3D Cloud Liquid Water Distribution
Wiscombe, W. J., Brookhaven National Laboratory -
Comparisons Between Radiosondes and Remote Sensors During the 2004 NSA Arctic Winter Radiometric Experiment
Westwater, E. R., University of Colorado/CET/ECE -
Continuous Clear-sky LW from Surface Measurements
Long, C. N., Pacific Northwest National Laboratory, Turner, D. D., University of Wisconsin-Madison -
Continuous Dataset of Water Vapor Measurements Throws Water on Assumptions of Cirrus Cloud Formation
Comstock, J. M., Pacific Northwest National Laboratory -
Correction Method for Infrared Detector Confirmed; Error in Clear Sky Bias Condition Remains Unresolved
Turner, D. D., University of Wisconsin-Madison -
Data from DOE Atmospheric Radiation Measurement Program Allows Evaluation of Surface Models
Robock, A., Rutgers University -
Data from Saharan Dust Storm Reveal Model Deficiencies
McFarlane, S. A., Pacific Northwest National Laboratory -
Development of a New Method for Estimating Evapotranspiration Using ARM Measurements
Li, Z., University of Maryland -
Direct Aerosol Forcing: Calculation from Observables and Sensitivities to Inputs
McComiskey, A. C., CIRES / NOAA -
Downward Longwave Irradiance Uncertainty Under Arctic Atmospheres: Measurements and Modeling
Marty, C., Swiss Federal Institute of Snow and Avalanche Research -
Dust in the Wind... and the Clouds... and the Atmosphere
Sassen, K., University of Alaska Fairbanks -
Earth Lightens Up
Long, C. N., Pacific Northwest National Laboratory -
Effects of Relative Humidity on Aerosols—Implications for Climate
Lacis, A. A., NASA/Goddard Institute for Space Studies -
Encountering a Longstanding Cloud Physics Question in the Arctic: How Is Ice Formed in Moderately Supercooled Clouds?
Fridlind, A. M., NASA Goddard Institute for Space Studies -
Environmental Thermodynamics Affect Radiative Impact of Deep Convective Cloud Systems
Jensen, M., Brookhaven National Laboratory -
Evaluate the Diurnal Cycle in the Multiscale Modeling Framework Using Satellite and ARM Data
Zhang, Y., Lawrence Livermore National Laboratory, Klein, S., Lawrence Livermore National Laboratory -
Evaluation of a New Mixed-Phase Cloud Microphysics Parameterization with SCAM, CAPT Forecasts and M-PACE Observations
Liu, X., Pacific Northwest National Laboratory -
Evaluation of Microwave Radiometer Performance in Alaska
Liljegren, J. C., Argonne National Laboratory -
Evaluation of Simulated Clouds and Radiation at the ARM Site
Ghan, S. J., Pacific Northwest National Laboratory -
Five-Year Statistics of Shallow Clouds at the ACRF SGP Site
Berg, L., Pacific Northwest National Laboratory, Kassianov, E., Pacific Northwest National Laboratory -
Forcing Boundary Layer Cloud Systems with Multi-Dimensional Radiation
Mechem, D. B., University of Kansas, Kogan, Y., University of Oklahoma, CIMMS, Ovtchinnikov, M., Pacific Northwest National Laboratory, Davis, A. B., Los Alamos National Laboratory, Evans, F., University of Colorado, Ellingson, R. G., Florida State University -
For Estimates of Cloud Optical Thickness, Simple Equation Is Good Enough
Barnard, J. C., Pacific Northwest National Laboratory -
General Formulation for Representing Cloud-to-Rain Transition in Atmospheric Models
Liu, Y., Brookhaven National Laboratory -
Hemispherical Simulations Show Impact of Aerosols on Cloud Reflectivity
Rotstayn, L., CSIRO -
How Much Condensed Water Does It Take to Make "Cloud?"
Long, C. N., Pacific Northwest National Laboratory, Dupont, J., Laboratoire de Météorologie Dynamique (LMD), IPSL, Haeffelin, M. P., Institut Pierre Simon Laplace -
Impact of Dynamics and Atmospheric State on Cloud Vertical Overlap
Naud, C. M., Columbia University/GISS, Del Genio, A. D., NASA Goddard Institute for Space Studies, Mace, G., University of Utah, Benson, S., University of Utah, Clothiaux, E. E., The Pennsylvania State University, Kollias, P., McGill University -
Impact of Small Ice Crystals on Ice Sedimentation Rates in Cirrus Clouds and GCM Simulations
Mitchell, D. L., Desert Research Institute, Rasch, P., Pacific Northwest National Laboratory, Ivanova, D., Embry-Riddle Aeronautical University, McFarquhar, G., University of Illinois, Nousiainen, T. P., University of Helsinki -
Importance of Small Ice Crystals to Cirrus Properties: Observations from TWP-ICE
McFarquhar, G., University of Illinois -
Improved Accuracy in Liquid Water Path Retrievals
Turner, D. D., University of Wisconsin-Madison -
Improved Daytime Precipitable Water Vapor from Vaisala Radiosonde Humidity Sensors
Cady-Pereira, K. E., Atmospheric and Environmental Research, Inc., Mlawer, E. J., Atmospheric & Environmental Research, Inc., Turner, D. D., University of Wisconsin-Madison, Shephard, M. W., Atmospheric and Environmental Research, Inc., Clough, S. A., Atmospheric and Environmental Research -
Improved Simulation of Boundary Layer Clouds
Ghan, S. J., Pacific Northwest National Laboratory -
Improving Convection Parameterization Using ARM Observations and NCAR Community Atmosphere Model
Zhang, G. J., University of California, San Diego -
Influence of Dust Composition on Cloud Droplet Formation
Chuang, C., Lawrence Livermore National Laboratory -
Initial Aerosol Concentration Is Key Contributor to Low-Level Cloud Reflectivity
Penner, J. E., University of Michigan -
Integrated Water Vapor and Cloud Liquid Water at MCTEX
Liljegren, J. C., Argonne National Laboratory -
Intercomparison of Longwave Radiative Heating Algorithms
Baer, F., University Of Maryland -
Island-Induced Cloud Plumes Influence Tropical Atmospheric Measurements, Surface Radiation
McFarlane, S. A., Pacific Northwest National Laboratory -
Mean and Variance Measurements of Photon Path Length in Oxygen a-Band and Water Vapor Band Provide Insight Into Radiative Transfer in Cloudy Conditions
Min, Q., State University of New York at Albany -
Measuring Climate Model Skill in Producing Present-Day Clouds
Pincus, R., NOAA-CIRES Climate Diagnostics Center, Batstone, C., NOAA-CIRES Climate Diagnostics Center, Hofmann, R. P., University of Colorado and NOAA/ESRL/PSD, Taylor, K. E., Lawrence Livermore National Laboratory, Gleckler, P. J., Lawrence Livermore National Laboratory -
Mineral Dust Altering Cloud Microphysics and Precipitation
Min, Q., State University of New York at Albany -
Minimal Shortwave Anomalous Absorption Found over ACRF Sites
Dong, X., University of North Dakota, Minnis, P., NASA Langley Research Center -
Mixed-Phase Cloud Vertical Velocities and Dynamical-Microphysical Interactions
Shupe, M., CIRES/NOAA/ETL -
Modeled Vs. Measured Direct-Normal Solar Irradiance
Schwartz, S. E., Brookhaven National Laboratory -
Modeling Cloud Forcing in the Tropical West Pacific
Kiehl, J., National Center for Atmospheric Research -
Modeling of Scattering and Absorption by Nonspherical Cirrus
Fu, Q., University of Washington -
Modification of the Atmospheric Boundary Layer by a Small Island: Observations from Nauru
Long, C. N., Pacific Northwest National Laboratory -
Multifractal Analysis of Radiation in Clouds: 5000km to 50cm
Lovejoy, S., McGill University -
New Method for Three-Dimensional Imaging of Cirrus Clouds
Liou, K., UCLA -
New Technique Successful for Measuring Thickness of Broken Clouds
Marshak, A., NASA Goddard Space Flight Center -
Observational Evidence of Changes in Water Vapor, Clouds, and Radiation
Dong, X., University of North Dakota -
Observations of Microphysical Properties of Single Layer Stratocumulus During the Mixed-Phase Arctic Cloud Experiment
McFarquhar, G., University of Illinois -
On Thin Ice: Retrieval Algorithms for Ice Clouds Examined for Improvements
Comstock, J. M., Pacific Northwest National Laboratory -
Optical Depth Measurements by Shadowband Radiometers and Their Uncertainties
Alexandrov, M. D., Columbia University -
Optical Properties of the 1997 TWP Smoke Event
Spinhirne, J., NASA/Goddard Space Flight Center -
Out with the Old, in with the New: McICA to Replace Traditional Cloud Overlap Assumptions
Pincus, R., NOAA-CIRES Climate Diagnostics Center -
Paper on Clouds with Small Amount of Liquid Water Amount Ranked as "Hot"
Turner, D. D., University of Wisconsin-Madison -
Precipitation Forecast Improved with a New Convective Triggering Mechanism
Xie, S., Lawrence Livermore National Laboratory, Zhang, M., State University of New York at Stony Brook -
Preview of TWP MFRSR Data
Chuang, C., Lawrence Livermore National Laboratory -
Probabilistic Approach Useful for Evaluating Cloud System Models
Jakob, C., BMRC -
Progress in Understanding Water Vapor's Role in Models
Ackerman, T. P., University of Washington -
Quantifying Error in the Radiative Forcing of the First Aerosol Indirect Effect
McComiskey, A. C., CIRES / NOAA -
Quantifying the Magnitude of Anomalous Solar Absorption
Ackerman, T. P., University of Washington -
Quantifying the Optical Depth of Mixed-Phase Clouds Accurately with Passive Observations
Turner, D. D., University of Wisconsin-Madison -
Radiative Forcing by Long-lived Greenhouse Gases: Calculations with the AER Models
Iacono, M. J., Atmospheric & Environmental Research, Inc., Delamere, J. S., Atmospheric and Environmental Research, Inc., Mlawer, E. J., Atmospheric & Environmental Research, Inc., Collins, W. D., Lawrence Berkeley National Laboratory -
Raman Lidar Observations of Aerosol Humidification Near Clouds
Ferrare, R. A., NASA Langley Research Center -
Retrieving Cloud Characteristics from Ground-Based Daytime Color All-Sky Images
Long, C. N., Pacific Northwest National Laboratory -
Seasonal Case Studies Reveal Significant Variance in Large-Scale Forcing Data
Xie, S., Lawrence Livermore National Laboratory -
Self-Regulation Strikes a Balance Between Hydrological Cycle, Radiation Processes, and Intraseasonal Dynamic Variations
Stephens, G. L., Colorado State University -
Shallow Clouds Make the Case for Remote Sensing Instrumentation
McFarlane, S. A., Pacific Northwest National Laboratory -
Shortwave Absorption in Tropical Clouds
McFarlane, S. A., Pacific Northwest National Laboratory, Mather, J. H., Pacific Northwest National Laboratory, Ackerman, T. P., University of Washington, Liu, Z., University of Washington -
Simulating Mixed-Phase Clouds: Sensitivity to Ice Initiation
Sednev, I., Lawrence Berkeley National Laboratory, Menon, S., Lawrence Berkeley National Laboratory, McFarquhar, G., University of Illinois -
Single-Column Modeling, GCM Parameterizations and ARM Data
Somerville, R. C., Scripps Institution of Oceanography -
Single-Scattering Properties of Aggregates of Bullet Rosettes in Cirrus
Um, J., University of Illinois, McFarquhar, G., University of Illinois -
Small Processes Make a Big Difference in Model Outcomes
Cole, J. N., Canadian Centre for Modelling and Analysis -
Splitting the Solar Spectrum: Sometimes Less Is Better Than More
Pawlak, D. T., The Pennsylvania State University -
Study Aerosol Humidity Effects Using the ARM Measurements
Li, Z., University of Maryland -
Sub-Grid Scale Cloud Variability Affects Vertical Structure of Clouds and Radiative Heating
McFarlane, S. A., Pacific Northwest National Laboratory -
Surface Characterization Data for the ARM SGP CART Site
Cialella, A. T., Brookhaven National Laboratory -
Tackling Tropical Convection in Climate Models
Zhang, G. J., University of California, San Diego -
Testing and Comparing the Modified Anomalous Diffraction Approximation
Mitchell, D. L., Desert Research Institute -
Tests of Single-Column Models with ARM Data
Randall, D. A., Colorado State University -
The Apparent Bluing of Aerosols Near Clouds
Marshak, A., NASA Goddard Space Flight Center -
The Icy Business of Calculating Cirrus Clouds
Somerville, R. C., Scripps Institution of Oceanography -
The K-Distribution Method for a SW Radiative Transfer Model
Ackerman, T. P., University of Washington -
Theoretical Formulation for Cloud-to-Rain Transition
Liu, Y., Brookhaven National Laboratory -
The Significance of Multilayer Cloud Systems in Tropical Convection
Stephens, G. L., Colorado State University -
The Surprisingly Large Contribution of Small Marine Clouds to Cloud Fraction and Reflectance
Oreopoulos, L., UMBC, Feingold, G., NOAA/Earth System Research Laboratory, Koren, I., Department of Environmental Sciences, Weizmann Institute, Remer, L., Laboratory for Atmospheres, NASA-GSFC -
The Vertical Structure of Cloud Radiative Forcing at the ACRF SGP Revealed by 8 Years of Continuous Measurements
Mace, G., University of Utah -
Threshold Radar Reflectivity Separating Precipitating from Non-Precipitating Clouds
Liu, Y., Brookhaven National Laboratory -
Tropical Ice Cloud Simulations Using Scripps Single Column Model (SCM) Reveal Range of Model Uncertainties
McFarquhar, G., University of Illinois -
Tropical Radiosonde Comparisons May Improve Past and Present Humidity Data
Westwater, E. R., University of Colorado/CET/ECE -
Use of ARM Products in Reanalysis Applications and IPCC Model Assessment
Walsh, J. E., University of Illinois -
Using a Cloud-Resolving Model to Identify the Role of Aerosols on Clouds and Precipitation
Tao, W., NASA/Goddard Space Flight Center -
Using ARM Cloud Data to Evaluate the Effect of a Land Surface on Clouds
Tao, W., NASA/Goddard Space Flight Center -
Using Copulas to Model Complex Clouds
Oreopoulos, L., UMBC, Norris, P., GEST-UMBC, Hou, A., NASA GSFC, Tao, W., NASA/Goddard Space Flight Center, Zeng, X., NASA/GSFC -
Using Doppler Radar to Characterize Cloud Parameters
Kogan, Y., University of Oklahoma, CIMMS -
Using Lidars to Retrieve Optical Depth of Thick Clouds
Marshak, A., NASA Goddard Space Flight Center -
Validating Single Column Models with ARM Data
Somerville, R. C., Scripps Institution of Oceanography -
Validation of CERES-MODIS Cloud Properties Using ARM Data
Dong, X., University of North Dakota -
Vertical Variation of Cloud Droplet Size Using Ship and Space-borne R/S Data
Li, Z., University of Maryland, Chen, R., University of Maryland, Wood, R., University of Washington, Chang, F., National Institute of Aerospace, Ferraro, R., NOAA/NESDIS, WWBG -
Weather Forecasting in the Tropics with Climate Models Is Feasible
Boyle, J., Lawrence Livermore National Laboratory -
Weather Forecasts Help to Understand Climate Model Biases
Klein, S., Lawrence Livermore National Laboratory -
Weather Prediction and Climate Simulation: a Meeting of the Models
Xie, S., Lawrence Livermore National Laboratory -
Wide Angle Imaging Lidar: Active Optical Sensor Technology for Ground-Based Probing of Dense Clouds
Davis, A. B., Los Alamos National Laboratory