R
Rangasayi N. Halthore
Researcher at Brookhaven National Laboratory
Publications - 22
Citations - 3344
Rangasayi N. Halthore is an academic researcher from Brookhaven National Laboratory. The author has contributed to research in topics: Aerosol & Water vapor. The author has an hindex of 14, co-authored 22 publications receiving 3154 citations. Previous affiliations of Rangasayi N. Halthore include United States Naval Research Laboratory.
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Journal ArticleDOI
An emerging ground-based aerosol climatology: Aerosol optical depth from AERONET
Brent N. Holben,Didier Tanré,Alexander Smirnov,Thomas F. Eck,Thomas F. Eck,Thomas F. Eck,Ilya Slutsker,Nader Abuhassan,W. W. Newcomb,Joel Schafer,Joel Schafer,Bernadette Chatenet,F. Lavenu,Yoram J. Kaufman,J. R. Vande Castle,Alberto Setzer,Brian L. Markham,Dennis K. Clark,Robert Frouin,Rangasayi N. Halthore,Rangasayi N. Halthore,A. Karneli,N. T. O'Neill,Christophe Pietras,Christophe Pietras,Rachel T. Pinker,Kenneth J. Voss,Giuseppe Zibordi +27 more
TL;DR: In this paper, the AERONET program of spectral aerosol optical depth, precipitable water, and derived Angstrom exponent were analyzed and compiled into a spectral optical properties climatology.
Journal ArticleDOI
Optical Properties of Atmospheric Aerosol in Maritime Environments
Alexander Smirnov,Brent N. Holben,Yoram J. Kaufman,Oleg Dubovik,Thomas F. Eck,Ilya Slutsker,Christophe Pietras,Rangasayi N. Halthore +7 more
TL;DR: In this paper, the results of a comprehensive optical and physical characterization of ambient aerosol in five key island locations of the Aerosol Robotic Network (AERONET) of sun and sky radiometers, spanning over 2.5 yr.
Journal ArticleDOI
Sun photometric measurements of atmospheric water vapor column abundance in the 940‐nm band
TL;DR: In this article, the authors describe a procedure to perform a rapid determination of the water column abundance using sun photometers with an accuracy that is easily comparable to that of the radiosondes.
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Intercomparison of models representing direct shortwave radiative forcing by sulfate aerosols
Olivier Boucher,Stephen E. Schwartz,Thomas P. Ackerman,T. L. Anderson,B. Bergstrom,B. Bonnel,Petr Chýlek,Arne Dahlback,Arne Dahlback,Y. Fouquart,Qiang Fu,Rangasayi N. Halthore,Jim Haywood,Jim Haywood,Jim Haywood,Trond Iversen,Seiji Kato,Seiji Kato,S. Kinne,S. Kinne,Alf Kirkevåg,Kenneth R. Knapp,Andrew A. Lacis,Istvan Laszlo,Michael I. Mishchenko,Seth Nemesure,Venkatachalam Ramaswamy,David L. Roberts,P. B. Russell,Michael E. Schlesinger,Graeme L. Stephens,Richard Wagener,M. Wang,J. G. D. Wong,Fanglin Yang +34 more
TL;DR: In this article, the authors report results of a project involving 12 groups using 15 models to examine radiative forcing by sulfate aerosol for a wide range of values of particle radius, aerosol optical depth, surface albedo, and solar zenith angle.
Journal ArticleDOI
Comparison of columnar water-vapor measurements from solar transmittance methods.
Beat Schmid,Joseph J. Michalsky,Donald W. Slater,James C. Barnard,Rangasayi N. Halthore,J. C. Liljegren,Brent N. Holben,Thomas F. Eck,John M. Livingston,Philip B. Russell,Thomas Ingold,Ilya Slutsker +11 more
TL;DR: The Atmospheric Radiation Measurement program studied water vapor abundance measurement at its southern Great Plains site in the fall of 1997 as mentioned in this paper, using a large number of instruments, including four solar radiometers.