We present a new computer program, SRTC++, to solve spatial problems associated with explorations of Saturn’s moon Titan. The program implements a three-dimensional structure well-suited to addressing shortcomings arising from plane-parallel radiative transfer approaches. SRTC++’s design uses parallel processing in an object-oriented, compiled computer language (C++) leading to a flexible and fast architecture. We validate SRTC++ using analytical results, semianalytical radiative transfer expressions, and an existing Titan plane-parallel model. SRTC++ complements existing approaches, addressing spatial problems like near-limb and near-terminator geometries, non-Lambertian surface phase functions (including specular reflections), and surface...
The theory of radiative transfer is an important element for the understanding of the spectral signa...
A new model for computing radiative transfer in a spherically symmetric atmosphere has been develope...
This dissertation explores the coupling between radiative and three-dimensional dynamical processes ...
We have developed, from scratch, a 3D radiative transfer code based on the Monte Carlo method, that ...
Titan's optical and near-IR spectra result primarily from the scattering of sunlight by haze and its...
Radiative transfer (RT) is a key component for investigating atmospheres of planetary bodies. With t...
Radiative-transfer (RT) is a key component for investigating atmospheres of planetary bodies. With t...
This dataset contains all Radiative Transfer (RT) results made for the paper. The data are stored i...
This thesis describes the development, benchmarking and application of a non-LTE, co-moving frame Mo...
Context. Thermal dust emission carries information on physical conditions and dust properties in man...
This is the final version. Available on open access from IOP Publishing via the DOI in this recordRa...
Using our decades-long experience in radiative transfer (RT) code development for Earth science, we ...
Results of an extensive validation study of the new radiative transfer code SHARM-3D are described. ...
A High-performance Atmospheric Radiation Package (HARP) is developed for studying multiple-scatterin...
Higher resolution telescopes as well as 3D numerical simulations will require the development of det...
The theory of radiative transfer is an important element for the understanding of the spectral signa...
A new model for computing radiative transfer in a spherically symmetric atmosphere has been develope...
This dissertation explores the coupling between radiative and three-dimensional dynamical processes ...
We have developed, from scratch, a 3D radiative transfer code based on the Monte Carlo method, that ...
Titan's optical and near-IR spectra result primarily from the scattering of sunlight by haze and its...
Radiative transfer (RT) is a key component for investigating atmospheres of planetary bodies. With t...
Radiative-transfer (RT) is a key component for investigating atmospheres of planetary bodies. With t...
This dataset contains all Radiative Transfer (RT) results made for the paper. The data are stored i...
This thesis describes the development, benchmarking and application of a non-LTE, co-moving frame Mo...
Context. Thermal dust emission carries information on physical conditions and dust properties in man...
This is the final version. Available on open access from IOP Publishing via the DOI in this recordRa...
Using our decades-long experience in radiative transfer (RT) code development for Earth science, we ...
Results of an extensive validation study of the new radiative transfer code SHARM-3D are described. ...
A High-performance Atmospheric Radiation Package (HARP) is developed for studying multiple-scatterin...
Higher resolution telescopes as well as 3D numerical simulations will require the development of det...
The theory of radiative transfer is an important element for the understanding of the spectral signa...
A new model for computing radiative transfer in a spherically symmetric atmosphere has been develope...
This dissertation explores the coupling between radiative and three-dimensional dynamical processes ...