The ion mass analyzer (IMA) on board Mars Express revealed bundled structures of ions in the energy domain within a distance of a proton gyroradius from the Martian bow shock. Seven prominent traversals during 2005 were examined when the energy-bunched structure was observed together with pick-up ions of exospheric origin, the latter of which is used to determine the local magnetic field orientation from its circular trajectory in velocity space. These seven traversals include different bow shock configurations: (a) quasi-perpendicular shock with its specular direction of the solar wind more perpendicular to the magnetic field (QT), (b) quasi-perpendicular shock with its specular reflection direction of the solar wind more along the magneti...
We present the first results from the ion mass analyzer IMA of the ASPERA-3 instrument on-board of M...
International audienceField-aligned beams are known to originate from the quasi-perpendicular side o...
The multi-satellite mission, Cluster II, provides unique opportunities to study the motion of the Ea...
International audienceThe Martian bow shock is a rich example of a supercritical, mass-loaded collis...
International audienceCollisionless shocks in space plasma are known to be capable of accelerating p...
The Mars Express Analyzer of Space Plasmas and Energetic Atoms experiment contains ion and electron ...
International audienceCollisionless shocks in space plasma are known to be capable of accelerating i...
Collisionless shocks in space plasmas are known to be capable of accelerating particles to very high...
AbstractThe Mars Express Analyzer of Space Plasmas and Energetic Atoms experiment contains ion and e...
Bow shock, formed by the interaction between the solar wind and a planet, is generated in different ...
International audienceIt is well known that shocks in space plasmas can accelerate particles to high...
Abstract. Field-aligned beams are known to originate from the quasi-perpendicular side of the Earth’...
Shock waves form when supersonic flows encounter an obstacle. Like in regular gases, shock waves can...
We present the first results from the ion mass analyzer IMA of the ASPERA-3 instrument on-board of M...
International audienceField-aligned beams are known to originate from the quasi-perpendicular side o...
The multi-satellite mission, Cluster II, provides unique opportunities to study the motion of the Ea...
International audienceThe Martian bow shock is a rich example of a supercritical, mass-loaded collis...
International audienceCollisionless shocks in space plasma are known to be capable of accelerating p...
The Mars Express Analyzer of Space Plasmas and Energetic Atoms experiment contains ion and electron ...
International audienceCollisionless shocks in space plasma are known to be capable of accelerating i...
Collisionless shocks in space plasmas are known to be capable of accelerating particles to very high...
AbstractThe Mars Express Analyzer of Space Plasmas and Energetic Atoms experiment contains ion and e...
Bow shock, formed by the interaction between the solar wind and a planet, is generated in different ...
International audienceIt is well known that shocks in space plasmas can accelerate particles to high...
Abstract. Field-aligned beams are known to originate from the quasi-perpendicular side of the Earth’...
Shock waves form when supersonic flows encounter an obstacle. Like in regular gases, shock waves can...
We present the first results from the ion mass analyzer IMA of the ASPERA-3 instrument on-board of M...
International audienceField-aligned beams are known to originate from the quasi-perpendicular side o...
The multi-satellite mission, Cluster II, provides unique opportunities to study the motion of the Ea...