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Electromagnetic diagnostic system for the Keda Torus eXperiment
Tu, Cui1,2; Liu, Adi1,2; Li, Zichao1,2; Tan, Mingsheng1,2; Luo, Bing1,2; You, Wei1,2; Li, Chenguang1,2; Bai, Wei1,2; Fu, Chenshuo1,2; Huang, Fangcheng1,2; Xiao, Bingjia3; Shen, Biao3; Shi, Tonghui3; Chen, Dalong3; Mao, Wenzhe1,2; Li, Hong1,2; Xie, Jinglin1,2; Lan, Tao1,2; Ding, Weixing1,2,4; Xiao, Chijin1,2,5; Liu, Wandong1,2
2017-09-01
Source PublicationREVIEW OF SCIENTIFIC INSTRUMENTS
Volume88Issue:9
AbstractA system for electromagnetic measurements was designed and installed on the Keda Torus eXperiment (KTX) reversed field pinch device last year. Although the unique double-C structure of the KTX, which allows the machine to be opened easily without disassembling the poloidal field windings, makes the convenient replacement and modification of the internal inductive coils possible, it can present difficulties in the design of flux coils and magnetic probes at the two vertical gaps. Moreover, the KTX has a composite shell consisting of a 6 mm stainless steel vacuum chamber and a 1.5 mm copper shell, which results in limited space for the installation of saddle sensors. Therefore, the double-C structure and composite shell should be considered, especially during the design and installation of the electromagnetic diagnostic system (EDS). The inner surface of the vacuum vessel includes two types of probes. One type is for the measurement of the global plasma parameters, and the other type is for studying the local behavior of the plasma and operating the new saddle coils. In addition, the probes on the outer surface of the composite shell are used for measurements of eddy currents. Finally, saddle sensors for radial field measurements for feedback control were installed between the conducting shell and the vacuum vessel. The entire system includes approximately 1100 magnetic probes, 14 flux coils, 4 x 26 x 2 saddle sensors, and 16 Rogowski coils. Considering the large number of probes and limited space available in the vacuum vessel, the miniaturization of the probes and optimization of the probe distribution are necessary. In addition, accurate calibration and careful mounting of the probes are also required. The frequency response of the designed magnetic probes is up to 200 kHz, and the resolution is 1 G. The EDS, being spherical and of high precision, is one of the most basic and effective diagnostic tools of the KTX and meets the demands imposed by requirements on basic machine operating information and future studies. Published by AIP Publishing.
SubtypeArticle
WOS HeadingsScience & Technology ; Technology ; Physical Sciences
Funding OrganizationNational Natural Science Foundation of China(11375193 ; National Natural Science Foundation of China(11375193 ; National Magnetic Confinement Fusion Energy Development Program of China(2011GB106000 ; National Magnetic Confinement Fusion Energy Development Program of China(2011GB106000 ; 11475173 ; 11475173 ; 2013GB106002) ; 2013GB106002) ; 11635008 ; 11635008 ; 11605199) ; 11605199) ; National Natural Science Foundation of China(11375193 ; National Natural Science Foundation of China(11375193 ; National Magnetic Confinement Fusion Energy Development Program of China(2011GB106000 ; National Magnetic Confinement Fusion Energy Development Program of China(2011GB106000 ; 11475173 ; 11475173 ; 2013GB106002) ; 2013GB106002) ; 11635008 ; 11635008 ; 11605199) ; 11605199)
DOI10.1063/1.5003039
WOS KeywordREVERSED-FIELD-PINCH ; RFX ; FLUCTUATION ; TRANSPORT ; PARADIGM ; PLASMAS ; DESIGN
Indexed BySCI
Language英语
Funding OrganizationNational Natural Science Foundation of China(11375193 ; National Natural Science Foundation of China(11375193 ; National Magnetic Confinement Fusion Energy Development Program of China(2011GB106000 ; National Magnetic Confinement Fusion Energy Development Program of China(2011GB106000 ; 11475173 ; 11475173 ; 2013GB106002) ; 2013GB106002) ; 11635008 ; 11635008 ; 11605199) ; 11605199) ; National Natural Science Foundation of China(11375193 ; National Natural Science Foundation of China(11375193 ; National Magnetic Confinement Fusion Energy Development Program of China(2011GB106000 ; National Magnetic Confinement Fusion Energy Development Program of China(2011GB106000 ; 11475173 ; 11475173 ; 2013GB106002) ; 2013GB106002) ; 11635008 ; 11635008 ; 11605199) ; 11605199)
WOS Research AreaInstruments & Instrumentation ; Physics
WOS SubjectInstruments & Instrumentation ; Physics, Applied
WOS IDWOS:000412108700021
Citation statistics
Document Type期刊论文
Identifierhttp://ir.hfcas.ac.cn:8080/handle/334002/33768
Collection中科院等离子体物理研究所
Affiliation1.Univ Sci & Technol China, KTX Lab, Hefei 230026, Anhui, Peoples R China
2.Univ Sci & Technol China, Dept Modern Phys, Hefei 230026, Anhui, Peoples R China
3.Chinese Acad Sci, Inst Plasma Phys, Hefei 230031, Anhui, Peoples R China
4.Univ Calif Los Angeles, Dept Phys & Astron, Los Angeles, CA 90095 USA
5.Univ Saskatchewan, Plasma Phys Lab, Saskatoon, SK 7N 5E2, Canada
Recommended Citation
GB/T 7714
Tu, Cui,Liu, Adi,Li, Zichao,et al. Electromagnetic diagnostic system for the Keda Torus eXperiment[J]. REVIEW OF SCIENTIFIC INSTRUMENTS,2017,88(9).
APA Tu, Cui.,Liu, Adi.,Li, Zichao.,Tan, Mingsheng.,Luo, Bing.,...&Liu, Wandong.(2017).Electromagnetic diagnostic system for the Keda Torus eXperiment.REVIEW OF SCIENTIFIC INSTRUMENTS,88(9).
MLA Tu, Cui,et al."Electromagnetic diagnostic system for the Keda Torus eXperiment".REVIEW OF SCIENTIFIC INSTRUMENTS 88.9(2017).
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