Magnetic fields get reconnected in turbulent plasma too, Cluster reveals


Solar ‘magnetic carpet’
 
This image provides a model of magnetic fields at the Sun's surface using SOHO data, showing irregular magnetic fields (the ‘magnetic carpet’) in the solar corona (top layer of the Sun's atmosphere). Small-scale current sheets are likely to form in such turbulent environment and reconnection may occur in similar fashion as in Earth's magnetosheath. This can be relevant to a better understanding of the heating of solar corona.

Small-scale magnetic reconnection seen by Cluster
 
Top: this illustration shows the Earth’s magnetosphere with the orbit of the Cluster flotilla depicted by a red line. The bow shock is seen compressed on the day-side by the solar wind. The magnetosheath is the boundary layer between the bow-shock and the magnetosphere.

Bottom: Schematic diagram of the current-sheet formation between magnetic islands and of magnetic reconnection in the current sheet.

On 27 March 2002, the constellation of Cluster spacecraft (maintaining an inter-spacecraft distance of only 100 kilometres) have observed reconnection within a very thin current ‘sheet’ embedded in the turbulent plasma in the magnetosheath. The observations show that the turbulent plasma is accelerated and heated during the reconnection process. This newly discovered type of small-scale reconnection seems to be associated with the acceleration of particles to energies much higher than the average, which could explain, in part, the creation of high energy particles by the Sun.

Cluster’s observations provided the first direct measurements of small-scale plasma turbulence, opening up new perspectives to help us better understand the behaviour of turbulent plasma.

Schematic of magnetic field lines during reconnection
 
In a plasma (a gas of charged particles), during magnetic reconnection, magnetic field lines of opposite direction break and then reconnect, forming an X-line magnetic topology. The newly reconnected field lines accelerate the plasma away from the X-line.

Solar flare seen by SOHO
 
This animation shows an active region with loops and an X-type solar flare on the solar surface as imaged by ESA/NASA’s SOHO satellite in November 1997.



Release date: 30 August 2010