@misc{oai:repo.qst.go.jp:00074918,
 author = {Z. Cheng, C. and 井上, 静雄 and Ono, Y. and Tanabe, H. and Horiuchi, R. and Inoe, Shizuo},
 month = {Nov},
 note = {Driven magnetic reconnection is a key physical process of converting magnetic energy into plasma energy. As plasma embedded in oppositely directed magnetic fields merge toward each other, the oppositely directed magnetic fields reconnect so that the plasma and magnetic field flow to the downstream regions. During the driven magnetic reconnection process a part of the magnetic energy is converted into the plasma energy. We will first introduce the concept of driven magnetic reconnection. Then, we will show that the kinetic physics of magnetic reconnection gives very different physics from fluid models. In particular, we will explain how the parallel electric field and electrostatic electric field are produced by the decoupling of the electron and ion dynamics and how and where electrons and ions are accelerated/heated., 2nd Asia-Pacific Conference on Plasma Physics},
 title = {Electron and Ion Heating/Acceleration in Driving Magnetic Reconnection},
 year = {2018}
}