Add to ORKGThe onset of magnetic reconnection in the near-tail of Earth, long known to herald the fast magnetospheric convection that leads to geomagnetic storms and substorms, is very closely associated with the formation and down-tail ejection of magnetic loops or flux ropes called plasmoids. Plasmoids form as a result of the fragmentation of preexisting cross-tail current sheet as a result of magnetic reconnection. Depending upon the number, location, and intensity of the individual reconnection X-lines and how they evolve, some of these loop-like or helical magnetic structures may also be carried sunward. At the inner edge of the tail they are expected to "re-reconnect' with the planetary magnetic field and dissipate. Plasmoid ejection has now bee...
Magnetic reconnection is a fundamental physical process in planetary magnetospheres, in which plasm...
Reconnection within planetary magnetotails is responsible for locally energizing particles and chang...
Reconnection within planetary magnetotails is responsible for locally energizing particles and chang...
We survey the Cassini magnetometer data during the deep tail orbits in 2006, and find 34 direct enco...
We present a comprehensive study of the magnetic field and plasma signatures of reconnection events ...
We present a comprehensive study of the magnetic field and plasma signatures of reconnection events ...
Three instances of tail reconnection events at Saturn involving the ejection of plasmoids downtail h...
We review in situ observations made in Jupiter and Saturn’s magnetosphere that illustrate the possib...
During its exploration of Saturn's magnetotail the Cassini magnetometer has detected many in situ ex...
During its exploration of Saturn's magnetotail the Cassini magnetometer has detected many in situ ex...
Plasmoid is a key structure for transferring magnetic flux and plasma in planetary magnetospheres. A...
Plasmoids and other reconnection-related signatures have been observed in Jupiter's magnetotail thro...
Plasmoids in Saturn's magnetotail are identified by a reversal (northward turning) of the normally s...
Plasmoids have been observed over a broad distance along Earth's magnetotail, from X= -30 RE to -200...
Magnetic reconnection plays a crucial role in violent energy conversion occurring in the environment...
Magnetic reconnection is a fundamental physical process in planetary magnetospheres, in which plasm...
Reconnection within planetary magnetotails is responsible for locally energizing particles and chang...
Reconnection within planetary magnetotails is responsible for locally energizing particles and chang...
We survey the Cassini magnetometer data during the deep tail orbits in 2006, and find 34 direct enco...
We present a comprehensive study of the magnetic field and plasma signatures of reconnection events ...
We present a comprehensive study of the magnetic field and plasma signatures of reconnection events ...
Three instances of tail reconnection events at Saturn involving the ejection of plasmoids downtail h...
We review in situ observations made in Jupiter and Saturn’s magnetosphere that illustrate the possib...
During its exploration of Saturn's magnetotail the Cassini magnetometer has detected many in situ ex...
During its exploration of Saturn's magnetotail the Cassini magnetometer has detected many in situ ex...
Plasmoid is a key structure for transferring magnetic flux and plasma in planetary magnetospheres. A...
Plasmoids and other reconnection-related signatures have been observed in Jupiter's magnetotail thro...
Plasmoids in Saturn's magnetotail are identified by a reversal (northward turning) of the normally s...
Plasmoids have been observed over a broad distance along Earth's magnetotail, from X= -30 RE to -200...
Magnetic reconnection plays a crucial role in violent energy conversion occurring in the environment...
Magnetic reconnection is a fundamental physical process in planetary magnetospheres, in which plasm...
Reconnection within planetary magnetotails is responsible for locally energizing particles and chang...
Reconnection within planetary magnetotails is responsible for locally energizing particles and chang...