Add to ORKG[1] Three-dimensional (3-D) particle simulations are performed in a double current layer configuration to investigate the stability of current sheets and boundary layers which develop during magnetic reconnection of antiparallel fields in collisionless plasma. The strong current layers that develop near the x line remain surprisingly laminar, with no evidence of turbulence and associated anomalous resistivity or viscosity. Neither the electron shear flow instabilities nor kink-like instabilities, which have been observed in these current layers in earlier simulations, are present. The sharp boundary layers which form between the inflow and outflow regions downstream of the x line are unstable to the lower hybrid drift instability. The assoc...
Three-dimensional magnetic reconnection is studied using magnetohydrodynamic simulations. The initia...
Nonlinear development of collisionless driven reconnection and the consequent energy conversion proc...
©2018. American Geophysical Union. All Rights Reserved. We have used a global magnetohydrodynamic si...
[1] Three-dimensional (3-D) particle simulations are performed in a double current layer configurati...
Structure formation and plasma instabilities in collisionless driven reconnection are investigated b...
"Generation of anomalous resistivity and dynamical development of collisionless reconnection in the ...
Abstract. Two dimensional simulations of collisionless magnetic reconnection produce strong gradient...
Massively parallel numerical simulations of magnetic reconnection are presented in this study. Elect...
Particle simulation studies of collisionless driven reconnection in an open system are presented. Co...
We present a number of 3D kinetic PIC simulations aimed at understanding the mechanisms behind the o...
Driven magnetic reconnection in a collisionless plasma, "collisionless driven reconnection", is inve...
Dynamical behavior of thin current sheets under the influence of collisionless reconnection in an op...
A knowledge of the nature of fully three-dimensional magnetic reconnection is crucial in understandi...
The fast collisionless reconnection process typical of fusion relevant plasma regimes is analyzed wi...
We study the formation of a very thin current sheet (CS) and associated plasma electrodynamics using...
Three-dimensional magnetic reconnection is studied using magnetohydrodynamic simulations. The initia...
Nonlinear development of collisionless driven reconnection and the consequent energy conversion proc...
©2018. American Geophysical Union. All Rights Reserved. We have used a global magnetohydrodynamic si...
[1] Three-dimensional (3-D) particle simulations are performed in a double current layer configurati...
Structure formation and plasma instabilities in collisionless driven reconnection are investigated b...
"Generation of anomalous resistivity and dynamical development of collisionless reconnection in the ...
Abstract. Two dimensional simulations of collisionless magnetic reconnection produce strong gradient...
Massively parallel numerical simulations of magnetic reconnection are presented in this study. Elect...
Particle simulation studies of collisionless driven reconnection in an open system are presented. Co...
We present a number of 3D kinetic PIC simulations aimed at understanding the mechanisms behind the o...
Driven magnetic reconnection in a collisionless plasma, "collisionless driven reconnection", is inve...
Dynamical behavior of thin current sheets under the influence of collisionless reconnection in an op...
A knowledge of the nature of fully three-dimensional magnetic reconnection is crucial in understandi...
The fast collisionless reconnection process typical of fusion relevant plasma regimes is analyzed wi...
We study the formation of a very thin current sheet (CS) and associated plasma electrodynamics using...
Three-dimensional magnetic reconnection is studied using magnetohydrodynamic simulations. The initia...
Nonlinear development of collisionless driven reconnection and the consequent energy conversion proc...
©2018. American Geophysical Union. All Rights Reserved. We have used a global magnetohydrodynamic si...