Warren Wiscombe
Warren Wiscombe
Senior Scientist, NASA Goddard Space Flight Center
Verified email at nasa.gov
TitleCited byYear
Numerically stable algorithm for discrete-ordinate-method radiative transfer in multiple scattering and emitting layered media
K Stamnes, SC Tsay, W Wiscombe, K Jayaweera
Applied optics 27 (12), 2502-2509, 1988
32351988
Improved Mie scattering algorithms
WJ Wiscombe
Applied optics 19 (9), 1505-1509, 1980
16421980
A model for the spectral albedo of snow. I: Pure snow
WJ Wiscombe, SG Warren
Journal of the Atmospheric Sciences 37 (12), 2712-2733, 1980
14181980
Light scattering by nonspherical particles: theory, measurements, and applications
MI Mishchenko, JW Hovenier, LD Travis
Measurement Science and Technology 11 (12), 1827, 2000
13492000
The delta-Eddington approximation for radiative flux transfer
JH Joseph, WJ Wiscombe, JA Weinman
Journal of the Atmospheric Sciences 33 (12), 2452-2459, 1976
12121976
A model for the spectral albedo of snow. II: Snow containing atmospheric aerosols
SG Warren, WJ Wiscombe
Journal of the Atmospheric Sciences 37 (12), 2734-2745, 1980
10511980
The albedo of fractal stratocumulus clouds
RF Cahalan, W Ridgway, WJ Wiscombe, TL Bell, JB Snider
Journal of the Atmospheric Sciences 51 (16), 2434-2455, 1994
5921994
The Delta–M Method: Rapid Yet Accurate Radiative Flux Calculations for Strongly Asymmetric Phase Functions
WJ Wiscombe
Journal of the atmospheric sciences 34 (9), 1408-1422, 1977
5181977
Multifractal characterizations of nonstationarity and intermittency in geophysical fields: Observed, retrieved, or simulated
A Davis, A Marshak, W Wiscombe, R Cahalan
Journal of Geophysical Research: Atmospheres 99 (D4), 8055-8072, 1994
3911994
Mie scattering calculations: Advances in technique and fast, vector-speed computer codes
WJ Wiscombe
National Technical Information Service, US Department of Commerce, 1979
3301979
Exponential-sum fitting of radiative transmission functions
WJ Wiscombe, JW Evans
Journal of Computational Physics 24 (4), 416-444, 1977
3131977
Independent pixel and Monte Carlo estimates of stratocumulus albedo
RF Cahalan, W Ridgway, WJ Wiscombe, S Gollmer
Journal of the Atmospheric Sciences 51 (24), 3776-3790, 1994
3061994
The backscattered fraction in two-stream approximations
WJ Wiscombe, GW Grams
Journal of the Atmospheric Sciences 33 (12), 2440-2451, 1976
2671976
DISORT, a general-purpose Fortran program for discrete-ordinate-method radiative transfer in scattering and emitting layered media: documentation of methodology
K Stamnes, SC Tsay, W Wiscombe, I Laszlo
Tech. rep., Dept. of Physics and Engineering Physics, Stevens Institute ofá…, 2000
2392000
Radiative smoothing in fractal clouds
A Marshak, A Davis, W Wiscombe, R Cahalan
Journal of Geophysical Research: Atmospheres 100 (D12), 26247-26261, 1995
2341995
The Landsat scale break in stratocumulus as a three-dimensional radiative transfer effect: Implications for cloud remote sensing
A Davis, A Marshak, R Cahalan, W Wiscombe
Journal of the Atmospheric Sciences 54 (2), 241-260, 1997
2241997
Cirrus cloud detection from airborne imaging spectrometer data using the 1.38 Ám water vapor band
BC Gao, AFH Goetz, WJ Wiscombe
Geophysical Research Letters 20 (4), 301-304, 1993
2221993
Scale invariance of liquid water distributions in marine stratocumulus. Part I: Spectral properties and stationarity issues
A Davis, A Marshak, W Wiscombe, R Cahalan
Journal of the atmospheric sciences 53 (11), 1538-1558, 1996
2211996
Bounded cascade models as nonstationary multifractals
A Marshak, A Davis, R Cahalan, W Wiscombe
Physical Review E 49 (1), 55, 1994
2121994
Efficiency factors in Mie scattering
HM Nussenzveig, WJ Wiscombe
Physical Review Letters 45 (18), 1490, 1980
2091980
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