Add to ORKGThe study of trace gas species in the Martian atmosphere has the potential to shed new light on wide-ranging topics such as the search for life and the history of liquid water on the planet. Investigating the way that molecules such as ozone, water and HCl are cycled in the atmosphere will give insights into the interactions taking place between the atmosphere, lithosphere and any potential biosphere. Numerous missions are currently being planned; for example the NASA/ESA Trace Gas Orbiter which will probe the trace constituents of the Martian atmosphere and to try to explain recent observations such as the Tharsis methane plumes and the presence of perchlorate in the North polar plains. Currently there are two Mars General Circulation Mode...
If life exists beneath the Martian surface similar to terrestrial bacteria that rely upon chemical r...
The Mars Science Laboratory Mission was designed to pave the way for the study of life beyond Earth ...
In this project, ozone will be retrieved and mapped in the Martian atmosphere using nadir and occult...
For many years the Mars exploration program has focused on the mantra 'follow the water' as a means ...
The observation of a methane plume in the atmosphere of Mars caused much interest in the role of tra...
Dust-bourne heterogeneous reactions have been modelled using the UK Mars Global Circulation Model (M...
Measurements of the yield of important trace gas species such as ozone, evolved during photolytic re...
Our understanding of methane on Mars is insufficient to explain the spatial and temporal variabilit...
The recent discovery of hydrogen chloride (HCl) in the martian atmosphere has renewed interest in th...
Interest in the martian chlorine cycle has been renewed as a result of the recent discovery of hydro...
The first detection of perchlorate salts in the Martian regolith was made by NASA’s Phoenix Mars lan...
This work aims to set up a framework for assimilation of trace gas species into a Martian Global Cir...
Le fichier pdf est un "extended abstract" de 1 page en libre acces: http://www-mars.lmd.jussieu.fr/p...
Heterogeneous (gas-surface) processes may play an important role in both the atmospheric and surface...
The martian subsurface is the most likely environment on the planet to find life, as it is protected...
If life exists beneath the Martian surface similar to terrestrial bacteria that rely upon chemical r...
The Mars Science Laboratory Mission was designed to pave the way for the study of life beyond Earth ...
In this project, ozone will be retrieved and mapped in the Martian atmosphere using nadir and occult...
For many years the Mars exploration program has focused on the mantra 'follow the water' as a means ...
The observation of a methane plume in the atmosphere of Mars caused much interest in the role of tra...
Dust-bourne heterogeneous reactions have been modelled using the UK Mars Global Circulation Model (M...
Measurements of the yield of important trace gas species such as ozone, evolved during photolytic re...
Our understanding of methane on Mars is insufficient to explain the spatial and temporal variabilit...
The recent discovery of hydrogen chloride (HCl) in the martian atmosphere has renewed interest in th...
Interest in the martian chlorine cycle has been renewed as a result of the recent discovery of hydro...
The first detection of perchlorate salts in the Martian regolith was made by NASA’s Phoenix Mars lan...
This work aims to set up a framework for assimilation of trace gas species into a Martian Global Cir...
Le fichier pdf est un "extended abstract" de 1 page en libre acces: http://www-mars.lmd.jussieu.fr/p...
Heterogeneous (gas-surface) processes may play an important role in both the atmospheric and surface...
The martian subsurface is the most likely environment on the planet to find life, as it is protected...
If life exists beneath the Martian surface similar to terrestrial bacteria that rely upon chemical r...
The Mars Science Laboratory Mission was designed to pave the way for the study of life beyond Earth ...
In this project, ozone will be retrieved and mapped in the Martian atmosphere using nadir and occult...