Add to ORKGWe study electron distribution functions in a diffusion region of antiparallel asymmetric reconnection by means of particle-in-cell simulations and analytical theory. At the electron stagnation point, the electron distribution comprises a crescent-shaped population and a core component. The crescent-shaped distribution is due to electrons coming from the magnetosheath toward the stagnation point and accelerated mainly by electric field normal to the current sheet. Only a part of magnetosheath electrons can reach the stagnation point and form the crescent-shaped distribution that has a boundary of a parabolic curve. The penetration length of magnetosheath electrons into the magnetosphere is derived. We expect that satellite observations can ...
Using data from the MMS mission and the First-Order Taylor Expansion (FOTE) method, here we reveal e...
International audienceUsing data from the MMS mission and the First-Order Taylor Expansion(FOTE) met...
International audienceUsing data from the MMS mission and the First-Order Taylor Expansion(FOTE) met...
Crescent electron distribution functions in the electron diffusion region in asymmetric reconnection...
Electron distribution functions in the electron diffusion region during symmetric magnetic reconnect...
International audienceSupported by a kinetic simulation, we derive an exclusion energy parameter EX ...
International audienceSupported by a kinetic simulation, we derive an exclusion energy parameter EX ...
International audienceSupported by a kinetic simulation, we derive an exclusion energy parameter EX ...
International audienceSupported by a kinetic simulation, we derive an exclusion energy parameter EX ...
International audienceSupported by a kinetic simulation, we derive an exclusion energy parameter EX ...
Crescent electron distribution functions in the electron diffusion region in asymmetric reconnection...
Supported by a kinetic simulation, we derive an exclusion energy parameter $\cal{E}_X$ providing a l...
A new look at the structure of the electron diffusion region in collision less magnetic reconnection...
Using data from the MMS mission and the First-Order Taylor Expansion (FOTE) method, here we reveal e...
Using data from the MMS mission and the First-Order Taylor Expansion (FOTE) method, here we reveal e...
Using data from the MMS mission and the First-Order Taylor Expansion (FOTE) method, here we reveal e...
International audienceUsing data from the MMS mission and the First-Order Taylor Expansion(FOTE) met...
International audienceUsing data from the MMS mission and the First-Order Taylor Expansion(FOTE) met...
Crescent electron distribution functions in the electron diffusion region in asymmetric reconnection...
Electron distribution functions in the electron diffusion region during symmetric magnetic reconnect...
International audienceSupported by a kinetic simulation, we derive an exclusion energy parameter EX ...
International audienceSupported by a kinetic simulation, we derive an exclusion energy parameter EX ...
International audienceSupported by a kinetic simulation, we derive an exclusion energy parameter EX ...
International audienceSupported by a kinetic simulation, we derive an exclusion energy parameter EX ...
International audienceSupported by a kinetic simulation, we derive an exclusion energy parameter EX ...
Crescent electron distribution functions in the electron diffusion region in asymmetric reconnection...
Supported by a kinetic simulation, we derive an exclusion energy parameter $\cal{E}_X$ providing a l...
A new look at the structure of the electron diffusion region in collision less magnetic reconnection...
Using data from the MMS mission and the First-Order Taylor Expansion (FOTE) method, here we reveal e...
Using data from the MMS mission and the First-Order Taylor Expansion (FOTE) method, here we reveal e...
Using data from the MMS mission and the First-Order Taylor Expansion (FOTE) method, here we reveal e...
International audienceUsing data from the MMS mission and the First-Order Taylor Expansion(FOTE) met...
International audienceUsing data from the MMS mission and the First-Order Taylor Expansion(FOTE) met...