Abstract
Abstract. We report characteristics of thermal particle observations during the encounter of the Wind satellite with the separatrix and the outflow domains of a reconnection event on 22 July 1999 in the solar wind. During the studied event the electrostatic analyzers on Wind were transmitting three-dimensional electron and proton distributions in a burst mode every 3 s, the spin period of the spacecraft. The event was associated with a magnetic shear angle of 114° and a large guide magnetic field. The observations suggest that Wind crossed the separatrix and outflow regions about a thousand of ion skin depths from the X-line. At the leading separator boundary, a strong proton beam was identified that originated from the direction of the X-line. In the separatrix and the outflow regions, the phase space distributions of thermal electrons displayed field aligned bidirectional anisotropy. During the crossings of the current sheets bounding the outflow region, we identified two adjacent layers in which the dominant thermal electron flows were towards the X-line at the inner edges of the current sheets and away from the X-line at the outer edges. Interestingly, simulation studies and observations in the Earth's magnetosphere have revealed that the electron flows are reversed, consistent with the Hall current system.
Highlights
Magnetic reconnection is a fundamental process in space plasma that enables fast release of magnetic energy and changes topology of the magnetic field
We investigate for the first time high-time resolution particle measurements associated with the separatrix and the outflow domains of a reconnection region in the solar wind
In this paper we have reported high-time resolution particle observations obtained with the EESA-L and PESA-L electrostatic analyzers of the Wind satellite during the solar wind reconnection event on 22 July 1999
Summary
Magnetic reconnection is a fundamental process in space plasma that enables fast release of magnetic energy and changes topology of the magnetic field. Reconnection events in the solar wind are typically identified in the form of “Petschek-type” exhausts where the plasma outflow from the X-line is bounded by Alfven waves (Gosling et al, 2005a, 2006a). As reconnection proceeds the initial current sheet bifurcates into two pairs of Alfven waves at which the magnetic field changes direction and the main energy conversion takes place. J. Huttunen et al.: Particle observations during solar wind reconnection measurements enabled this study. An overview of solar wind plasma and magnetic field observations is presented in Sect. We investigate for the first time high-time resolution particle measurements associated with the separatrix and the outflow domains of a reconnection region in the solar wind. EESA-L and PESAL were operating in a burst mode transmitting 3-s threedimensional particle distributions; these high time resolution
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
