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Barry D. Ganapol
Researcher at University of Arizona
Publications - 196
Citations - 1731
Barry D. Ganapol is an academic researcher from University of Arizona. The author has contributed to research in topics: Neutron transport & Radiative transfer. The author has an hindex of 21, co-authored 188 publications receiving 1597 citations. Previous affiliations of Barry D. Ganapol include Langley Research Center & University of Tennessee.
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LEAFMOD : A new within-leaf radiative transfer model
Barry D. Ganapol,Barry D. Ganapol,Lee F. Johnson,Lee F. Johnson,Philip D. Hammer,Christine A. Hlavka,David L. Peterson +6 more
TL;DR: Within-leaf radiative transfer model called LEAFMOD (Leaf Experimental Absorptivity Feasibility MODel) is proposed in this paper, which decouples scattering and absorption within the leaf, producing fresh leaf absorption profiles with peaks at locations corresponding to the major absorption features for water and chlorophyll.
BRYNTRN: A baryon transport model
John W. Wilson,Lawrence W. Townsend,John E. Nealy,Sang Y. Chun,Byungsik Hong,W.W. Buck,S. L. Lamkin,Barry D. Ganapol,Ferdous Khan,Francis A. Cucinotta +9 more
TL;DR: The development of an interaction data base and a numerical solution to the transport of baryons through an arbitrary shield material based on a straight ahead approximation of the Boltzmann equation are described, which is self-contained, efficient and ready to use.
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LCM2: A coupled leaf/canopy radiative transfer model
Barry D. Ganapol,Lee F. Johnson,Lee F. Johnson,Christine A. Hlavka,David L. Peterson,Barbara J. Bond +5 more
TL;DR: In this paper, two radiative transfer models have been coupled to generate vegetation canopy reflectance as a function of leaf chemistry, leaf morphology, leaf thickness, soil reflectance, and canopy architecture.
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Remote sensing of vegetation canopy photosynthetic and stomatal conductance efficiencies
TL;DR: In this article, the problem of remote sensing the canopy photosynthetic and stomatal conductance efficiencies is investigated with the aid of one-and three-dimensional radiative transfer methods coupled to a semi-empirical mechanistic model of leaf photosynthesis.
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Analysis of vegetation isolines in red-NIR reflectance space.
TL;DR: In this article, the characteristic behavior of red-near-infrared (NIR) reflectance-based vegetation isolines was analyzed by focusing on its three features: the slope, NIR-intercept, and the intersection between the vegetation isoline and the soil line.