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Brent N. Holben
Researcher at Goddard Space Flight Center
Publications - 595
Citations - 77925
Brent N. Holben is an academic researcher from Goddard Space Flight Center. The author has contributed to research in topics: Aerosol & AERONET. The author has an hindex of 124, co-authored 583 publications receiving 70858 citations. Previous affiliations of Brent N. Holben include University of Maryland, College Park.
Papers
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AERONET-a federated instrument network and data archive for aerosol Characterization
Brent N. Holben,Thomas F. Eck,Ilya Slutsker,Didier Tanré,J. P. Buis,Alberto Setzer,Eric Vermote,John A. Reagan,Yoram J. Kaufman,Teruyuki Nakajima,François Lavenu,I. Jankowiak,Alexander Smirnov +12 more
TL;DR: The operation and philosophy of the monitoring system, the precision and accuracy of the measuring radiometers, a brief description of the processing system, and access to the database are discussed.
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The MODIS Aerosol Algorithm, Products and Validation
Lorraine A. Remer,Yoram J. Kaufman,Didier Tanré,Shana Mattoo,D. A. Chu,J. V. Martins,Rong-Rong Li,Charles Ichoku,Robert C. Levy,Richard G. Kleidman,Thomas F. Eck,Eric Vermote,Brent N. Holben +12 more
TL;DR: In this article, the spectral optical thickness and effective radius of the aerosol over the ocean were validated by comparison with two years of Aerosol Robotic Network (AERONET) data.
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Characteristics of maximum-value composite images from temporal AVHRR data
TL;DR: In this paper, satellite data from the Advanced Very High Resolution Radiometer sensor have been processed over several days and combined to produce spatially continuous cloud-free imagery over large areas with sufficient temporal resolution to study green-vegetation dynamics.
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Variability of Absorption and Optical Properties of Key Aerosol Types Observed in Worldwide Locations
Oleg Dubovik,Brent N. Holben,Thomas F. Eck,Thomas F. Eck,Alexander Smirnov,Yoram J. Kaufman,Michael D. King,Didier Tanré,Ilya Slutsker +8 more
TL;DR: In this paper, the AERONET network of ground-based radiometers were used to remotely sense the aerosol absorption and other optical properties in several key locations, and the results showed robust differentiation in both the magnitude and spectral dependence of the absorption, a property driving aerosol climate forcing.
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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.