By Paul Sutherland 22 December 2012
Two of the probes zoomed in on the solar wind to probe it in greater detail than ever before for the latest study. Their observations showed the turbulence which is caused due to irregularities in the flow of particles along magnetic field lines.
They were flying just 20km (12.5 miles) apart along the direction of flow of plasma, taking 450 measurements a second as they operated in “burst mode”.
The results achieved were then compared with results obtained using computer simulations. This confirmed that sheets of electric current exist only 20km across on the borders of the swirling turbulence.
Dr Silvia Perri of the University of Calabria, Italy, led the study. He said: “This shows for the first time that the solar wind plasma is extremely structured at this high resolution.”
Tiny swirls of turbulence in the solar wind, as detected by Cluster. Credit: ESA
Cluster has previously detected current sheets on much larger scales of 100 km (62 miles) in the magnetosheath, the region sandwiched between Earth’s protective bubble called the magnetosphere and the bow shock created where it meets the solar wind.
At the edges of those larger turbulent eddies, a process called ‘magnetic reconnection was detected, where oppositely directed magnetic field lines spontaneously break then reconnect with other nearby field lines, so releasing their energy.
By Paul Sutherland 21 December 2012
(Sen) – The imaging wizards working on the Cassini mission have delivered a Christmas gift to space fans in the shape of this astonishing new view of planet Saturn.
It looks unusual because the giant world and its spectacular rings were backlit with the Sun behind them while the NASA probe was in Saturn’s shadow.
That is a line-up that happens rarely for the orbiter which has been studying the planet and its retinue of moons since 2004. The last time it delivered such a view was in September 2006 with a picture that was named In Saturn’s Shadow.
The two bright dots resembling stars below the rings to the left of the planet are actually two of Saturn’s many moons – Enceladus which spouts salty jets from an underground sea, and Tethys.
Various Sources on Solar Winds:
Solar wind is a stream of charged particles released from the upper atmosphere of the Sun. It mostly consists of electrons and protons with energies usually between 1.5 and 10 keV. The stream of particles varies in temperature and speed over time. These particles can escape the Sun’s gravity because of their high kinetic energy and the hightemperature of the corona.
The solar wind creates the heliosphere, an enormous bubble in the interstellar mediumthat surrounds the Solar System. Other phenomena include geomagnetic storms that can knock out power grids on Earth, the aurorae (northern and southern lights), and theplasma tails of comets that always point away from the Sun.
- Transit of Venus (astroataglance.wordpress.com)
- Transit of Venus To Be Observed from Saturn (spaceref.com)
- Earth’s magnetosphere behaves like a sieve (esciencenews.com)