Interactions of electrons with two lower hybrid waves
文献类型:期刊论文
| 作者 | Huang, Yueheng1,2,3; Xiang, Nong1,3 ; Jia, Guozhang1,3; Li, Dehui1,3; Wang, Xueyi1,4; Lin, Yu1,4
|
| 刊名 | PHYSICS OF PLASMAS
 |
| 出版日期 | 2016-09-01 |
| 卷号 | 23期号:9页码:092114 |
| DOI | 10.1063/1.4963393 |
| 文献子类 | Article |
| 英文摘要 | The effects of perturbed orbits on the interactions of electrons with two lower hybrid waves, one of which is resonant with electrons at a low phase velocity (nu(p1) = 3.8V(the), where nu(p1) is the wave phase velocity and V-the is the electron thermal speed) while the other is off-resonant at a high phase velocity (nu(p2) = 5.5V(the)), have been studied by using the particle simulation code based on the gyrokinetic electron and fully-kinetic ion (GeFi) model [Lin et al., Plasma Phys. Controlled Fusion 47, 657 (2005)]. When the amplitude of the off-resonant wave is sufficiently small so that the resonances of these two waves do not overlap, the variation of the resonant wave amplitude is similar to that predicted by O'Neil's theory [O'Neil, Plasma Fluid 8, 12 (1965)]. With the increasing amplitude, the two resonances overlap and large scale chaos emerges. As a result, the damping of the resonant wave can be enhanced, which is due to that the trapped electron orbits are significantly perturbed by the off-resonant wave. The diffusion process gives rise to the enhanced damping. When the overlap is sufficiently large, the damping of the off-resonant wave and the oscillatory behavior of the wave amplitude are observed. In addition, the resonant plateau in the distribution function can be broadened due to the change in the chaotic region boundaries as the electron perturbed orbits are taken into account. Published by AIP Publishing. |
| WOS关键词 | PROPAGATING LANGMUIR WAVE ; PLASMA ; INSTABILITY ; SIMULATION ; EVOLUTION ; TOKAMAK ; RANGE |
| WOS研究方向 | Physics |
| 语种 | 英语 |
| WOS记录号 | WOS:000385633200019 |
| 资助机构 | program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; program of Fusion Reactor Physics and Digital Tokamak ; CAS ; CAS ; CAS ; CAS ; CAS ; CAS ; CAS ; CAS ; CAS ; CAS ; CAS ; CAS ; CAS ; CAS ; CAS ; CAS ; 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National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; National Magnetic Confinement Fusion Science Program of China(2013GB111002 ; 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11475220 ; 11475220 ; 11475220 ; 11475220 ; 11475220 ; 11475220 ; 11475220 ; 11475220 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 2013GB112010 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 11405218 ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 2015GB101003) ; 11405208) ; 11405208) ; 11405208) ; 11405208) ; 11405208) ; 11405208) ; 11405208) ; 11405208) ; 11405208) ; 11405208) ; 11405208) ; 11405208) ; 11405208) ; 11405208) ; 11405208) ; 11405208) |
| 源URL | [http://ir.hfcas.ac.cn:8080/handle/334002/21802]  |
| 专题 | 合肥物质科学研究院_中科院等离子体物理研究所 |
| 作者单位 | 1.Chinese Acad Sci, Inst Plasma Phys, Hefei 230031, Peoples R China 2.Univ Sci & Technol China, Hefei 230026, Peoples R China 3.Chinese Acad Sci, Ctr Magnet Fus Theory, Hefei 230031, Peoples R China 4.Auburn Univ, Dept Phys, Allison Lab 206, Auburn, AL 36849 USA |
| 推荐引用方式 GB/T 7714 | Huang, Yueheng,Xiang, Nong,Jia, Guozhang,et al. Interactions of electrons with two lower hybrid waves[J]. PHYSICS OF PLASMAS,2016,23(9):092114. |
| APA | Huang, Yueheng,Xiang, Nong,Jia, Guozhang,Li, Dehui,Wang, Xueyi,&Lin, Yu.(2016).Interactions of electrons with two lower hybrid waves.PHYSICS OF PLASMAS,23(9),092114. |
| MLA | Huang, Yueheng,et al."Interactions of electrons with two lower hybrid waves".PHYSICS OF PLASMAS 23.9(2016):092114. |
入库方式: OAI收割
来源:合肥物质科学研究院
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