P
Philip W. Rosenkranz
Researcher at Massachusetts Institute of Technology
Publications - 75
Citations - 5009
Philip W. Rosenkranz is an academic researcher from Massachusetts Institute of Technology. The author has contributed to research in topics: Water vapor & Advanced Microwave Sounding Unit. The author has an hindex of 27, co-authored 73 publications receiving 4668 citations. Previous affiliations of Philip W. Rosenkranz include University of Minnesota & National Telecommunications and Information Administration.
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Journal ArticleDOI
Inversion of data from diffraction-limited multiwavelength remote sensors: 2. Nonlinear dependence of observables on the geophysical parameters
TL;DR: In this article, a shift-invariant spatial filtering algorithm is applied to inversion of radiometric measurements of the earth in both polarizations at the following frequencies: 6.6, 10.7, 18, 21, and 37 GHz.
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RTTOV-gb v1.0 – updates on sensors, absorption models, uncertainty, and availability
Domenico Cimini,Domenico Cimini,James Hocking,Francesco De Angelis,Angela Cersosimo,Francesco Di Paola,Donatello Gallucci,Sabrina Gentile,Edoardo Geraldi,Salvatore Larosa,Saverio T. Nilo,Filomena Romano,Elisabetta Ricciardelli,Ermann Ripepi,Mariassunta Viggiano,Lorenzo Luini,Carlo Riva,Frank S. Marzano,Frank S. Marzano,Pauline Martinet,Yun Young Song,Myoung-Hwan Ahn,Philip W. Rosenkranz +22 more
TL;DR: RTTOV-gb as discussed by the authors is a FORTRAN 90 code developed by adapting the atmospheric radiative transfer code RTTOV, focused on satellite-observing geometry, to the ground-based observing geometry.
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Inversion of data from diffraction-limited multiwavelength remote sensors: 3. Scanning multichannel microwave radiometer data
TL;DR: In this paper, a spatial filtering algorithm is described, by means of which geophysical parameters are retrieved from measurements made over the ocean by the scanning multichannel microwave radiometer on the Nimbus 7 satellite.
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Revision of the 60-GHz atmospheric oxygen absorption band models for practical use
TL;DR: In this article, two models for millimeter-wave absorption by molecular oxygen in the air are updated to derive the updated parameter set, earlier resonator spectrometer data are refined and recent data on the collisional parameters' temperature behavior are taken into account.
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Formation of Jovian decametric S bursts by modulated electron streams
TL;DR: In this paper, the Io flux tube is modulated in velocity by approx.2.1 keV peak to peak, at a frequency of several hertz, and the observed duration of individual S bursts is consistent with magnetospheric ion densities greater than approx.15 cm/sup -3/.