An overview of the AIRS radiative transfer model
LL Strow, SE Hannon… - … on Geoscience and …, 2003 - ieeexplore.ieee.org
The two main elements of the Atmospheric Infrared Sounder radiative transfer algorithm
(AIRS-RTA) are described in this paper: 1) the fast parameterization of the atmospheric …
(AIRS-RTA) are described in this paper: 1) the fast parameterization of the atmospheric …
The impending opacity challenge in exoplanet atmospheric characterization
With a new generation of observatories coming online this decade, the process of
characterizing exoplanet atmospheres will need to be reinvented. Currently mostly on the …
characterizing exoplanet atmospheres will need to be reinvented. Currently mostly on the …
[HTML][HTML] The reference forward model (RFM)
A Dudhia - Journal of Quantitative Spectroscopy and Radiative …, 2017 - Elsevier
Abstract The Reference Forward Model (RFM) is a general purpose line-by-line radiative
transfer model, currently supported by the UK National Centre for Earth Observation. This …
transfer model, currently supported by the UK National Centre for Earth Observation. This …
Sulfate aerosol properties derived from combining coincident ACE-FTS and SAGE III/ISS measurements
CD Boone, PF Bernath, A Pastorek… - Journal of Quantitative …, 2024 - Elsevier
Combining infrared aerosol transmittance spectra from the Atmospheric Chemistry
Experiment Fourier transform spectrometer (ACE-FTS) and visible/near infrared extinction …
Experiment Fourier transform spectrometer (ACE-FTS) and visible/near infrared extinction …
Version 4 retrievals for the atmospheric chemistry experiment Fourier transform spectrometer (ACE-FTS) and imagers
CD Boone, PF Bernath, D Cok, SC Jones… - Journal of Quantitative …, 2020 - Elsevier
Abstract The Atmospheric Chemistry Experiment is a satellite-based mission that has been
probing the Earth's atmosphere via solar occultation since February 2004. Instruments on …
probing the Earth's atmosphere via solar occultation since February 2004. Instruments on …
Temperature-dependent measurements and modeling of absorption by CO2-N2 mixtures in the far line-wings of the 4.3 μm CO2 band
MY Perrin, JM Hartmann - Journal of Quantitative Spectroscopy and …, 1989 - Elsevier
We present experimental results on the absorption by CO 2-N 2 mixtures in the 4.3 μm
region. Measurements have been made in the 300–800 K and 0–60 bar ranges; these are in …
region. Measurements have been made in the 300–800 K and 0–60 bar ranges; these are in …
Origin and Extent of the Opacity Challenge for Atmospheric Retrievals of WASP-39 b
Abstract As the James Webb Space Telescope (JWST) came online last summer, we
entered a new era of astronomy. This new era is supported by data products of …
entered a new era of astronomy. This new era is supported by data products of …
Sensitivity of trace gas abundances retrievals from infrared limb emission spectra to simplifying approximations in radiative transfer modelling
GP Stiller, T von Clarmann, B Funke, N Glatthor… - Journal of Quantitative …, 2002 - Elsevier
The accuracy of trace gas abundances retrieved from spectrally resolved infrared limb
emission measurements relies, among other things, on the appropriate modelling of …
emission measurements relies, among other things, on the appropriate modelling of …
Why the forcing from carbon dioxide scales as the logarithm of its concentration
The radiative forcing from carbon dioxide is approximately logarithmic in its concentration,
producing about 4 W m− 2 of global-mean forcing for each doubling. Although these are …
producing about 4 W m− 2 of global-mean forcing for each doubling. Although these are …
[HTML][HTML] Simple spectral models for atmospheric radiative cooling
N Jeevanjee, S Fueglistaler - Journal of the Atmospheric …, 2020 - journals.ametsoc.org
Simple Spectral Models for Atmospheric Radiative Cooling in: Journal of the Atmospheric
Sciences Volume 77 Issue 2 (2020) Jump to Content Jump to Main Navigation Logo Logo Logo …
Sciences Volume 77 Issue 2 (2020) Jump to Content Jump to Main Navigation Logo Logo Logo …