https://doi.org/10.1140/epjti/s40485-018-0042-4
Research article
A supplemental device to return escaping particles to a magnetic mirror reactor
1
Nippon Electronic Engineering College, Noboribetsu-shi, Hokkaido, Japan
2
Soft Creator Company, Shinmachi, Nakagyo-ku, Kyoto, Japan
* e-mail: scc.kei@gmail.com
Received:
11
August
2017
Accepted:
17
January
2018
Published online:
9
February
2018
Cyclotron resonance is now applied as one of the important means for heating plasma in a fusion reactor. We examined this phenomenon from the viewpoint of electron gyration orbits through a solution of the linearized relativistic equation of motion. We found a powerful term that accelerates a relativistic charged particle largely at a resonance point when a magnetic field strength is very large. In this study, aiming an effect of this term, we consider applying a resonance phenomenon to reducing the number of charged particles that escape from a magnetic mirror reactor. We install a long supplemental device at the exit of a main magnetic bottle and make a cyclotron resonance space within the device, as shown in Fig. 7. If velocities (perpendicular to a magnetic field) of charged particles are accelerated largely within the cyclotron resonance space, the reflection efficiency of a magnetic mirror behind the resonance space ought to be improved. Based on this idea, we discuss such a supplemental device for recovering the maximum number of escaping charged particles.
Key words: Magnetic mirror reactor / Cyclotron resonance / Acceleration of a relativistic charged particle / Suppression of escaping particles loss
© The Author(s); licensee Springer on behalf of EPJ., 2018
