A suite of programs for high resolution infrared atmospheric radiative transfer modeling has been developed with emphasis on efficient and reliable numerical algorithms and a modular approach appropriate for simulation and/or retrieval in a variety of applications. The Generic Atmospheric Radiation Line-by-line Infrared Code — GARLIC — is suitable for arbitrary observation geometry, instrumental field–of–view, and line shape. The core of GARLIC’s subroutines constitutes the basis of forward models used to implement inversion codes to retrieve atmospheric state parameters from limb and nadir sounding instruments. This paper briefly introduces the physical and mathematical basics of GARLIC and its descendants and continues with an in-dept...
Recently, several new generation instruments for far infrared and microwave remote sensing of the Ea...
Jacobians, i.e. partial derivatives of the radiance and transmission spectrum with respect to the at...
Author Institution: Department of Chemistry and The Enrico Fermi Institute, University of Toronto; D...
AbstractA suite of programs for high resolution infrared-microwave atmospheric radiative transfer mo...
The Generic Atmospheric Radiation Line-by-line Infrared Code or GARLIC has originally been developed...
A suite of programs for high resolution infrared atmospheric radiative transfer calculations has bee...
Despite of significant advances of computational power, line-by-line modeling of molecular absorptio...
An intercomparison of three line-by-line (lbl) codes developed independently for atmospheric radiati...
This paper describes a new fast line-by-line radiative transfer scheme which computes top of the atm...
A suite of programs MIRART (Modular InfraRed Atmospheric Radiative Transfer) for high resolution inf...
An intercomparison of three line-by-line (lbl) codes developed independently for atmospheric soundin...
Py4CAtS — Python scripts for Computational ATmospheric Spectroscopy is a Python re-implementation of...
Radiation is a key process in the atmosphere. Numerous radiative transfer codes have been developed ...
The paper illustrates the new features of the line-by-line radiative transfer model σ -IASI. The new...
Radiative transfer modelling of high resolution infrared (or microwave) spectra still represents a m...
Recently, several new generation instruments for far infrared and microwave remote sensing of the Ea...
Jacobians, i.e. partial derivatives of the radiance and transmission spectrum with respect to the at...
Author Institution: Department of Chemistry and The Enrico Fermi Institute, University of Toronto; D...
AbstractA suite of programs for high resolution infrared-microwave atmospheric radiative transfer mo...
The Generic Atmospheric Radiation Line-by-line Infrared Code or GARLIC has originally been developed...
A suite of programs for high resolution infrared atmospheric radiative transfer calculations has bee...
Despite of significant advances of computational power, line-by-line modeling of molecular absorptio...
An intercomparison of three line-by-line (lbl) codes developed independently for atmospheric radiati...
This paper describes a new fast line-by-line radiative transfer scheme which computes top of the atm...
A suite of programs MIRART (Modular InfraRed Atmospheric Radiative Transfer) for high resolution inf...
An intercomparison of three line-by-line (lbl) codes developed independently for atmospheric soundin...
Py4CAtS — Python scripts for Computational ATmospheric Spectroscopy is a Python re-implementation of...
Radiation is a key process in the atmosphere. Numerous radiative transfer codes have been developed ...
The paper illustrates the new features of the line-by-line radiative transfer model σ -IASI. The new...
Radiative transfer modelling of high resolution infrared (or microwave) spectra still represents a m...
Recently, several new generation instruments for far infrared and microwave remote sensing of the Ea...
Jacobians, i.e. partial derivatives of the radiance and transmission spectrum with respect to the at...
Author Institution: Department of Chemistry and The Enrico Fermi Institute, University of Toronto; D...