Add to ORKGA laboratory simulation of solar wind interaction with plasma shells of nonmagnetic planets is reported. It is shown that the momentum transfer from the plasma flow to the shell occurs due to the presence of a frozen-in magnetic field. Without a magnetic field frozen-in, the ionosphere has no sharp boundary and a shock wave does not form in the flow
Electrodynamic processes in the ionopause are examined as well as the structure of the induced magne...
Problems in space physics are discussed whose models, in simplified form, reduce to a supersonic flo...
The overall objective of this research program is to better understand the interaction of a magnetiz...
Planetary encounters by numerous spacecraft have furnished information concerning the solar wind int...
Numerical simulations are performed in the framework of nonlinear two-dimensional magnetohydrodynami...
Titan and Venus are both unmagnetized bodies enveloped by induced magnetospheres created within the ...
In our solar system there are at least four magnetic planets: Earth, Jupiter, Mercury, and Mars; whi...
The solar wind is slowed, deflected, and heated as it encounters Venus’s induced magnetosphere. The ...
Ahstraet. The large-scale (global) interaction of the wind around it. The shocked solar wind slows d...
Two topics related to the interaction of the solar wind with Venus are considered. First, a short re...
Venus, Mars and Titan are the only three objects in the solar system with substantial atmosphere but...
Venus, Mars and Titan are the only three objects in the solar system with substantial atmosphere but...
The solar wind interacts with the non-magnetic planet Venus by processes within the mantle region, l...
Venus, Mars and Titan are the only three objects in the solar system with substantial atmosphere but...
Today, the earth's instrinsic magnetic field prevents the streaming solar wind plasma from directly ...
Electrodynamic processes in the ionopause are examined as well as the structure of the induced magne...
Problems in space physics are discussed whose models, in simplified form, reduce to a supersonic flo...
The overall objective of this research program is to better understand the interaction of a magnetiz...
Planetary encounters by numerous spacecraft have furnished information concerning the solar wind int...
Numerical simulations are performed in the framework of nonlinear two-dimensional magnetohydrodynami...
Titan and Venus are both unmagnetized bodies enveloped by induced magnetospheres created within the ...
In our solar system there are at least four magnetic planets: Earth, Jupiter, Mercury, and Mars; whi...
The solar wind is slowed, deflected, and heated as it encounters Venus’s induced magnetosphere. The ...
Ahstraet. The large-scale (global) interaction of the wind around it. The shocked solar wind slows d...
Two topics related to the interaction of the solar wind with Venus are considered. First, a short re...
Venus, Mars and Titan are the only three objects in the solar system with substantial atmosphere but...
Venus, Mars and Titan are the only three objects in the solar system with substantial atmosphere but...
The solar wind interacts with the non-magnetic planet Venus by processes within the mantle region, l...
Venus, Mars and Titan are the only three objects in the solar system with substantial atmosphere but...
Today, the earth's instrinsic magnetic field prevents the streaming solar wind plasma from directly ...
Electrodynamic processes in the ionopause are examined as well as the structure of the induced magne...
Problems in space physics are discussed whose models, in simplified form, reduce to a supersonic flo...
The overall objective of this research program is to better understand the interaction of a magnetiz...