We compare numerical results obtained from a steady-state MHD model of solar wind flow past the terrestrial magnetosphere with documented observations made by the AMPTE/IRM spacecraft on 24 October, 1985, during an inbound crossing of the magnetosheath. Observations indicate that steady conditions prevailed during this about 4 hour-long crossing. The magnetic shear at spacecraft entry into the magnetosphere was 15°. A steady density decrease and a concomitant magnetic field pile-up were observed during the 40 min interval just preceding the magnetopause crossing. In this plasma depletion layer (1) the plasma beta dropped to values below unity; (2) the flow speed tangential to the magnetopause was enhanced; and (3) the local magnet...
International audienceWe present MMS) observations during two dayside magnetopause crossingsunder hi...
International audienceAccording to ideal MHD, the magnetopause boundary should split the terrestrial...
A key parameter in determining the flow of the solar wind around the magnetosphere is the Alfven Mac...
We compare numerical results obtained from a steady-state MHD model of solar wind flow past the terr...
Abstract. We compare numerical results obtained from a steady-state MHD model of solar wind flow pas...
Together with the magnetic shear across the magnetopause, the solar wind Alfvén Mach number, MA∞ pla...
The aim of this paper is to model for the first time the variation of field and flow parameters in t...
We carry out a first comparison with spacecraft measurements of our recent three-dimensional, one-fl...
The plasma depletion layer (PDL) is a layer on the sunward side of the magnetopause with lower plas...
Magnetic field measurements, taken by the magnetometer experiment (MAM) on board the German Equator...
Using measurements of the AMPTE-IRM spacecraft, we study the structure of the low-latitude magnetopa...
International audienceThe original data that led to the slow mode transition (SMT) scenario for the ...
We investigate the behaviour of the plasma parameters in the magnetosheath in a case when Interball-...
International audienceWe present MMS observations during two dayside magnetopause crossings under hi...
International audienceWe present MMS) observations during two dayside magnetopause crossingsunder hi...
International audienceAccording to ideal MHD, the magnetopause boundary should split the terrestrial...
A key parameter in determining the flow of the solar wind around the magnetosphere is the Alfven Mac...
We compare numerical results obtained from a steady-state MHD model of solar wind flow past the terr...
Abstract. We compare numerical results obtained from a steady-state MHD model of solar wind flow pas...
Together with the magnetic shear across the magnetopause, the solar wind Alfvén Mach number, MA∞ pla...
The aim of this paper is to model for the first time the variation of field and flow parameters in t...
We carry out a first comparison with spacecraft measurements of our recent three-dimensional, one-fl...
The plasma depletion layer (PDL) is a layer on the sunward side of the magnetopause with lower plas...
Magnetic field measurements, taken by the magnetometer experiment (MAM) on board the German Equator...
Using measurements of the AMPTE-IRM spacecraft, we study the structure of the low-latitude magnetopa...
International audienceThe original data that led to the slow mode transition (SMT) scenario for the ...
We investigate the behaviour of the plasma parameters in the magnetosheath in a case when Interball-...
International audienceWe present MMS observations during two dayside magnetopause crossings under hi...
International audienceWe present MMS) observations during two dayside magnetopause crossingsunder hi...
International audienceAccording to ideal MHD, the magnetopause boundary should split the terrestrial...
A key parameter in determining the flow of the solar wind around the magnetosphere is the Alfven Mac...