Add to ORKGAn update to a collisional-radiative model developed by Magin1 for Huygens Titan atmospheric entry is proposed. The model is designed to predict the nonequilibrium populations and the radiation emitted from cyanogen and nitrogen during the entry of the Huygens probe into the Titan atmosphere. Radiation during Titan entry is important at lower speeds (around 5 – 6 km/s) more so than other planetary entries due to the formation of cyanogen in the shock layer, which is a highly radiative species. The model has been tested against measurements obtained with the EAST shock tube of NASA Ames Research Centre.1,2 The motivation for the update is due to the large discrepancies shown in the post-shock fall-off rates of the radiation when compared to ...
International audienceWe introduce a new 1D coupled Radiative/Convective-Photochemical-Microphysical...
A reduced chemical kinetic model for Titan's atmosphere has been developed. This new model with 18 s...
In this study, a Hybrid Statistical Narrow Band (HSNB) model is implemented to make fast and accurat...
An update to a collisional-radiative model developed by Magin1 for Huygens Titan atmospheric entry i...
An electronic collisional-radiative model is proposed to predict the nonequilibrium populations and ...
This paper details the experimental work conducted at the University of Queensland to measure the no...
Radiative heat flux predictions for the Huygens probe entry into Titan's atmosphere are presented in...
The present paper focuses on the convective and radiative heat flux predictions required for the pos...
This paper reports on the design and testing of a heat transfer gauge suitable for the spectrum of r...
Titan, a satellite of Planet Saturn, is a very attractive location for planetary exploration, in vie...
The X2 facility at the University of Queensland was modified to allow experimentation at low pressur...
This thesis investigates the modelling of radiating shock layers encountered during atmospheric entr...
For reentry operations into atmospheres such as Titan, accurate, reliable radiation data is essentia...
Preliminary experiments representative of a Titan aerocapture peak heating conditions were conducted...
Emission spectroscopy measurements on a plasma representative of Titan atmosphere composition were o...
International audienceWe introduce a new 1D coupled Radiative/Convective-Photochemical-Microphysical...
A reduced chemical kinetic model for Titan's atmosphere has been developed. This new model with 18 s...
In this study, a Hybrid Statistical Narrow Band (HSNB) model is implemented to make fast and accurat...
An update to a collisional-radiative model developed by Magin1 for Huygens Titan atmospheric entry i...
An electronic collisional-radiative model is proposed to predict the nonequilibrium populations and ...
This paper details the experimental work conducted at the University of Queensland to measure the no...
Radiative heat flux predictions for the Huygens probe entry into Titan's atmosphere are presented in...
The present paper focuses on the convective and radiative heat flux predictions required for the pos...
This paper reports on the design and testing of a heat transfer gauge suitable for the spectrum of r...
Titan, a satellite of Planet Saturn, is a very attractive location for planetary exploration, in vie...
The X2 facility at the University of Queensland was modified to allow experimentation at low pressur...
This thesis investigates the modelling of radiating shock layers encountered during atmospheric entr...
For reentry operations into atmospheres such as Titan, accurate, reliable radiation data is essentia...
Preliminary experiments representative of a Titan aerocapture peak heating conditions were conducted...
Emission spectroscopy measurements on a plasma representative of Titan atmosphere composition were o...
International audienceWe introduce a new 1D coupled Radiative/Convective-Photochemical-Microphysical...
A reduced chemical kinetic model for Titan's atmosphere has been developed. This new model with 18 s...
In this study, a Hybrid Statistical Narrow Band (HSNB) model is implemented to make fast and accurat...