Observations of Secondary Magnetic Reconnection in the Turbulent Reconnection Outflow
Meng Zhou, Hengyan Man, Xiaohua Deng, Y. Pang, Y. V. Khotyaintsev, Giovanni Lapenta, Yongyuan Yi, Zhihong Zhong, W. Q.
Abstract
Abstract Magnetic reconnection and turbulence are the two most important energy dissipation processes in plasma. These two processes intertwine with each other and play important roles in their respective dynamic evolution. Here, we present the first evidence that secondary reconnections occur in the turbulent outflow driven by a primary reconnection in the Earth's magnetotail. We have identified 14 secondary reconnections in a large number of current filaments in the turbulent outflow, which persisted for about one and half an hour. Most of these secondary reconnections were electron‐only reconnection that has recently been discovered in the magnetosheath. These secondary reconnections entangled the magnetic field lines and dissipated the magnetic energy in the outflow region far away from the primary X line.