Radiative transfer and thermal performance levels in foam insulation boardstocks by Moreno, John David

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Near-field thermal radiation transfer controlled by plasmons in graphene by Ilic, Ognjen, Jablan, Marinko, Buljan, Hrvoje, Soljacic, Marin, Joannopoulos, John, Celanovic, Ivan L.

“…It is shown that thermally excited plasmon-polariton modes can strongly mediate, enhance, and tune the near-field radiation transfer between two closely separated graphene sheets. …”
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Effect of Longitude-Dependent Cloud Coverage on Exoplanet Visible Wavelength Reflected-Light Phase Curves by Webber, M. W., Lewis, N. K., Marley, M., Morley, C., Fortney, J. J., Cahoy, K.

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Monte Carlo radiative transfer simulation for the near-ocean-surface high-resolution downwelling irradiance statistics by Xu, Zao, Yue, Dick K. P.

“…We present a numerical study of the near-surface underwater solar light statistics using the state-of-the-art Monte Carlo radiative transfer (RT) simulations in the coupled atmosphere-ocean system. …”
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Probing the Magnetic Field Structure in Sgr A* on Black Hole Horizon Scales with Polarized Radiative Transfer Simulations by Gold, Roman, McKinney, Jonathan C., Johnson, Michael D., Doeleman, Sheperd Samuel

“…We perform general relativistic (GR) polarized radiative transfer of time-dependent three-dimensional GR magnetohydrodynamical simulations to model thermal synchrotron emission from the Galactic Center source Sagittarius A* (Sgr A*). …”
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Exoplanet Albedo Spectra and Colors as a Function of Planet Phase, Separation, and Metallicity by Cahoy, Kerri, Marley, Mark, Fortney, Jonathan

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Impact of Hillslope-Scale Organization of Topography, Soil Moisture, Soil Temperature, and Vegetation on Modeling Surface Microwave Radiation Emission by Flores, Alejandro N., Ivanov, Valeriy Y., Entekhabi, Dara, Bras, Rafael L.

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Hydrogen reionization in the Illustris universe by Bauer, Andreas, Springel, Volker, Vogelsberger, Mark, Genel, Shy, Torrey, Paul, Sijacki, Debora, Nelson, Dylan, Hernquist, Lars

“…Furthermore, we show that moment-based approaches for radiative transfer with the M1 closure give broadly consistent results with our angular-resolved radiative transfer scheme. …”
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Moisture-radiative cooling instability by Beucler, Tom G., Cronin, Timothy Wallace

“…Analytic solutions to the gray‐gas radiative transfer equations show that MRCI is satisfied when the total column optical depth—linked to column water vapor—exceeds a critical threshold. …”
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The use of coated micropowders to reduce radiation heat transfer in foam insulation by Marge, Arlene Lanciani

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A Temperature and Abundance Retrieval Method for Exoplanet Atmospheres by Madhusudhan, Nikku, Seager, Sara

“…The major difference from traditional 1D radiative transfer models is the parametric P-T profile, which essentially means adopting energy balance only at the top of the atmosphere and not in each layer. …”
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Fourier-Transform Spectroscopy of [superscript 13]C[superscript 17]O and Deperturbation Analysis of the A[superscript 1]Π (υ=0–3) Levels by Hakalla, R., Niu, M.L., Heays, A.N., Salumbides, E.J., Stark, G., Lyons, J.R., Eidelsberg, M., Lemaire, J.L., Federman, S.R., de Oliveira, N., Ubachs, W., Field, Robert W

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Capturing optically important constituents and properties in a marine biogeochemical and ecosystem model by Hickman, A. E., Gregg, W. W., Mouw, C. B., Dutkiewicz, Stephanie, Jahn, Oliver, Follows, Michael J

“…We present a numerical model of the ocean that couples a three-stream radiative transfer component with a marine biogeochemical–ecosystem component in a dynamic three-dimensional physical framework. …”
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Interpreting the ultraviolet aerosol index observed with the OMI satellite instrument to understand absorption by organic aerosols: implications for atmospheric oxidation and direc... by Hammer, Melanie S., Martin, Randall V., van Donkelaar, Aaron, Buchard, Virginie, Torres, Omar, Spurr, Robert J. D., Ridley, David Andrew

“…We develop a global simulation of the UVAI using the 3-D chemical transport model GEOS-Chem coupled with the Vector Linearized Discrete Ordinate Radiative Transfer model (VLIDORT). The simulation is applied to interpret UVAI observations from the Ozone Monitoring Instrument (OMI) for the year 2007. …”
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Deriving soil moisture with the combined L-band radar and radiometer measurements by Shi, Jiancheng, Chen, K. S., Tsang, L., Jackson, Thomas J., Njoku, Eni G., Van Zyl, J., O'Neill, Peggy E., Entekhabi, Dara, Johnson, J., Moghaddam, Mahta

“…We first simulated a database for both active and passive signals under SMAP's sensor configurations using the radiative transfer model with a wide range of conditions for surface soil moisture, roughness and vegetation properties that we considered as the random orientated disks and cylinders. …”
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Global precipitation retrieval algorithm trained for SSMIS using a numerical weather prediction model: Design and evaluation by Surussavadee, Chinnawat, Staelin, David H.

“…It is based on those developed earlier for the Advanced Microwave Sounding Unit (AMSU) and employs neural networks trained with 122 global storms that spanned a year and were simulated using the fifth-generation National Center for Atmospheric Research/Penn State Mesoscale Model (MM5) and a radiative transfer program validated using AMSU observations. …”
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On the Choice of Average Solar Zenith Angle by Cronin, Timothy W.

“…Calculations are performed for a pure scattering atmosphere and with a more detailed radiative transfer model and show that the absorption-weighted zenith angle is usually between the daytime-weighted and insolation-weighted zenith angles but much closer to the insolation-weighted zenith angle in most cases, especially if clouds are responsible for much of the shortwave reflection. …”
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Radiative and Dynamical Influences on Polar Stratospheric Temperature Trends by Rieder, Harald E., Ivy, Diane J, Solomon, Susan

“…The radiative trends are obtained from a seasonally evolving fixed dynamical heating calculation with the Parallel Offline Radiative Transfer model using four different ozone datasets, which provide estimates of observed ozone changes. …”
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Variability in GRMHD Simulations of Sgr A* : Implications for EHT Closure Phase Observations by Medeiros, Lia, Chan, Chi-kwan, Özel, Feryal, Psaltis, Dimitrios, Kim, Junhan, Marrone, Daniel P., Sadowski, Aleksander B

“…We use long time span, high cadence, GRMHD+radiative transfer models of Sgr A* to investigate the expected variability of closure phases in such observations. …”
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Space observations of cold-cloud phase change by Choi, Yong-Sang, Lindzen, Richard Siegmund, Ho, Chang-Hoi, Kim, Jinwon

“…Observations of radiative flux from the clouds and earth’s radiant energy system instrument aboard Terra satellite, as well as radiative transfer model simulations, show that the 20% variation in the supercooled cloud fraction is quantitatively important in cloud radiative effects, especially in shortwave, which are 10 - 20 W m[superscript -2] for regions of mixed-phase clouds affected by dust. …”
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