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Author Gong, Tao ♦ Zheng, Jian ♦ Li, Zhichao ♦ Ding, Yongkun ♦ Yang, Dong ♦ Hu, Guangyue ♦ Zhao, Bin
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword PLASMA PHYSICS AND FUSION TECHNOLOGY ♦ ELECTRON TEMPERATURE ♦ LASER CAVITIES ♦ MAGNETIC FIELDS ♦ ONE-DIMENSIONAL CALCULATIONS ♦ PLASMA ♦ REFLECTIVITY ♦ SCATTERING ♦ WAVE EQUATIONS
Abstract A simple model, based on energy and pressure equilibrium, is proposed to deal with the effect of external magnetic fields on the plasma parameters inside the laser path, which shows that the electron temperature can be significantly enhanced as the intensity of the external magnetic fields increases. With the combination of this model and a 1D three-wave coupling code, the effect of external magnetic fields on the reflectivities of stimulated scattering processes is studied. The results indicate that a magnetic field with an intensity of tens of Tesla can decrease the reflectivities of stimulated scattering processes by several orders of magnitude.
ISSN 1070664X
Educational Use Research
Learning Resource Type Article
Publisher Date 2015-09-15
Publisher Place United States
Journal Physics of Plasmas
Volume Number 22
Issue Number 9


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