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Georgiy L. Stenchikov
Researcher at King Abdullah University of Science and Technology
Publications - 182
Citations - 11532
Georgiy L. Stenchikov is an academic researcher from King Abdullah University of Science and Technology. The author has contributed to research in topics: Aerosol & Stratosphere. The author has an hindex of 52, co-authored 167 publications receiving 10160 citations. Previous affiliations of Georgiy L. Stenchikov include Lebedev Physical Institute & University of Maryland, College Park.
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Journal ArticleDOI
The Impact of Aerosols on Solar Ultraviolet Radiation and Photochemical Smog
Russell R. Dickerson,Shobha Kondragunta,Shobha Kondragunta,Georgiy L. Stenchikov,Georgiy L. Stenchikov,K. L. Civerolo,K. L. Civerolo,Bruce G. Doddridge,Bruce G. Doddridge,Brent N. Holben,Brent N. Holben +10 more
TL;DR: Observations and numerical models show that UV-scattering particles in the boundary layer accelerate photochemical reactions and smog production, but UV-absorbing aerosols such as mineral dust and soot inhibit smogProduction.
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Global Cooling After the Eruption of Mount Pinatubo: A Test of Climate Feedback by Water Vapor
TL;DR: This work uses the global cooling and drying of the atmosphere that was observed after the eruption of Mount Pinatubo to test model predictions of the climate feedback from water vapor and demonstrates the importance of the atmospheric drying in amplifying the temperature change.
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Regional climate responses to geoengineering with tropical and Arctic SO2 injections
TL;DR: In this paper, the authors simulate the climate response to both tropical and Arctic stratospheric injection of sulfate aerosol precursors using a comprehensive atmosphere-ocean general circulation model, the National Aeronautics and Space Administration Goddard Institute for Space Studies ModelE.
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Radiative forcing from the 1991 Mount Pinatubo volcanic eruption
Georgiy L. Stenchikov,Ingo Kirchner,Alan Robock,Hans-F. Graf,Juan Carlos Antuña,Roy G. Grainger,Alyn Lambert,Larry W. Thomason +7 more
TL;DR: In this article, a spectral-, space-, and time-dependent set of aerosol parameters for 2 years after the Pinatubo eruption using a combination of SAGE II aerosol extinctions and UARS-retrieved effective radii, supported by SAM II, AVHRR, lidar and balloon observations was developed.
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Changes of Snow Cover, Temperature, and Radiative Heat Balance over the Northern Hemisphere
TL;DR: In this paper, satellite-derived snow cover (S) transient regions, the "centers of action" relative to interannual variations of snow cover, were identified for the years 1972-1992, during which a global retreat in snow cover extent occurred in the second half of the hydrologic year (April-September).