Impulse Strong Mirror Field for High-Energy Particle Handlings
DOI:
https://doi.org/10.15379/2408-977X.2016.02.04Keywords:
Strong magnetic field, Magnetic mirror, Nuclei conversion, Nuclear fusion, High-energy physics, New particle productionAbstract
The technologies for generating strong magnetic flux density of 10 T ~ 1000 T have been developed and become to be utilized for fundamental science studies, especially for solid-state physics. These technologies enable to control the high-energy particles in a compact region, and explore the new frontier of nuclei conversions and nuclear fusion studies. The methods to generate strong mirror field for high-energy particle confinement and handlings are described in this paper.
References
VII: Scientific research symposium on middle range energy production: power supply systems on demand by pulsed operation for nuclear fusion, following conventional fusion methods and using fundamental methods promoted rapidly in this decade, in: Proceedings of the 32nd annual meeting of the Japan Society of Plasma Science and Nuclear Fusion Research, Nagoya Univ., Nagoya, Aichi, Japan, Nov. 27, 2015.
Nakamura E, Future compact fusion reactors using advanced techniques promoted rapidly in this decade, 10th academic meeting combined with nuclear fusion and energy production, 19-134, International congress center, Tsukuba, Japan, June 19th, 2014.
Nakamura E, et al., Future compact fusion reactors using advanced techniques promoted rapidly in this decade, Investigative technical committee No. 14-01 in the Japan Society of Plasma Science and Nuclear Fusion Research 2014 (JSPF).
Nakamura E, et al., Int J Adv Appl Phys Rec 2015; 2(1): 8. http://dx.doi.org/10.15379/2408-977X.2015.02.01.2
Nakamura E, et al., Int J Adv Appl Phys Res 2015; 2(2): 1. http://dx.doi.org/10.15379/2408-977X.2015.02.02.1
International MegaGauss Science Laboratory in Tokyo University.
Kindo Laboratory.
Takeyama Laboratory.
Kitagawa Y and Noda A, J Plasma Fusion 2010; 86(10): 582-588. (written in Japanese)
Nagatomo H, Asahina T, Sano T, Johzaki T, Sunahara A, Sakagami H, et al. Laser Driven Implosion in Strong Magnetic field, 10th academic meeting combined with nuclear fusion and energy production, 19-041, International congress center, Tsukuba, Japan, June 19th, 2014.
Successful generation of magnetic fields of 1.5 kilotesla using GEKKO-XII laser - 50 million times that of terrestrial magnetism -, latest research press releases of Osaka University, January 31st, 2013.
KUNIO T. Simulation of the Electromagnetic Flux Compression using LS-DYNA® Multi-Physics Capability, in: Proceedings of 10th European LS-DYNA Conference 2015, Würzburg, Germany.
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