We present results from the first self-consistent multi-fluid simula-tions of chromospheric magnetic reconnection in a weakly ionized reacting plasma. We simulate two dimensional magnetic reconnection in a Harris current sheet with a numerical model which includes ion-neutral scat-tering collisions, ionization, recombination, optically thin radiative loss, collisional heating, and thermal conduction. In the resulting tearing mode reconnection the neutral and ion fluids become decoupled upstream from the reconnection site, creating an excess of ions in the reconnection region and therefore an ionization imbalance. Ion recombination in the reconnec-tion region, combined with Alfvénic outflows, quickly removes ions from the reconnection site,...
The magnetic reconnection process has a key-role in plasma physics. Though being over-studied for de...
Magnetic reconnection is a fundamental process in highly conducting fluids and plasmas whereby the m...
This work aim at presenting fully kinetic simulations of magnetic reconnection with the current shee...
We study magnetic reconnection under chromospheric conditions in five different ionization levels fr...
We use a two-fluid (plasma + neutrals) model to simulate the magnetic reconnection in chromospheric ...
Aims. We investigate magnetic reconnection rates during the coalescence of two current loops in the ...
Magnetic reconnection is a ubiquitous process in the solar chromosphere. Realistic models of chromos...
Context. Density decreases exponentially with height in the gravitationally stratified solar atmosph...
Instability-driven fast magnetic reconnection plays a fundamental role in generating explosive dynam...
The magnetic reconnection process has a key-role in plasma physics and it is often invoked to explai...
Magnetic reconnection is a ubiquitous process in the partially ionized solar chromosphere. Recent 2D...
Within the solar environment, magnetic reconnection is often invoked to explain and/or model several...
Plasmoid-mediated fast magnetic reconnection plays a fundamental role in driving explosive dynamics ...
© 2017. The American Astronomical Society. All rights reserved. In order to study chromospheric magn...
This is the final version. Available on open access from the American Institute of Physics via the D...
The magnetic reconnection process has a key-role in plasma physics. Though being over-studied for de...
Magnetic reconnection is a fundamental process in highly conducting fluids and plasmas whereby the m...
This work aim at presenting fully kinetic simulations of magnetic reconnection with the current shee...
We study magnetic reconnection under chromospheric conditions in five different ionization levels fr...
We use a two-fluid (plasma + neutrals) model to simulate the magnetic reconnection in chromospheric ...
Aims. We investigate magnetic reconnection rates during the coalescence of two current loops in the ...
Magnetic reconnection is a ubiquitous process in the solar chromosphere. Realistic models of chromos...
Context. Density decreases exponentially with height in the gravitationally stratified solar atmosph...
Instability-driven fast magnetic reconnection plays a fundamental role in generating explosive dynam...
The magnetic reconnection process has a key-role in plasma physics and it is often invoked to explai...
Magnetic reconnection is a ubiquitous process in the partially ionized solar chromosphere. Recent 2D...
Within the solar environment, magnetic reconnection is often invoked to explain and/or model several...
Plasmoid-mediated fast magnetic reconnection plays a fundamental role in driving explosive dynamics ...
© 2017. The American Astronomical Society. All rights reserved. In order to study chromospheric magn...
This is the final version. Available on open access from the American Institute of Physics via the D...
The magnetic reconnection process has a key-role in plasma physics. Though being over-studied for de...
Magnetic reconnection is a fundamental process in highly conducting fluids and plasmas whereby the m...
This work aim at presenting fully kinetic simulations of magnetic reconnection with the current shee...