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Stability of concentration-related self-interstitial atoms in fusion material tungsten
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作者 张红 温述龙 +4 位作者 潘敏 黄整 赵勇 刘翔 谌继明 《Chinese Physics B》 SCIE EI CAS CSCD 2016年第5期242-245,共4页
Based on the density functional theory, we calculated the structures of the two main possible self-interstitial atoms(SIAs) as well as the migration energy of tungsten(W) atoms. It was found that the difference of... Based on the density functional theory, we calculated the structures of the two main possible self-interstitial atoms(SIAs) as well as the migration energy of tungsten(W) atoms. It was found that the difference of the 110 and 111 formation energies is 0.05–0.3 e V. Further analysis indicated that the stability of SIAs is closely related to the concentration of the defect. When the concentration of the point defect is high, 110 SIAs are more likely to exist, 111 SIAs are the opposite. In addition, the vacancy migration probability and self-recovery zones for these SIAs were researched by making a detailed comparison. The calculation provided a new viewpoint about the stability of point defects for selfinterstitial configurations and would benefit the understanding of the control mechanism of defect behavior for this novel fusion material. 展开更多
关键词 IRRADIATION self-interstitial atoms fusion material TUNGSTEN
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Development of a data acquisition and control system for the International Thermonuclear Experimental Reactor neutron flux monitor 被引量:2
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作者 Zihao LIU Xiang ZHOU +3 位作者 Renjie ZHU Li ZHAO Lingfeng WEI Zejie YIN 《Plasma Science and Technology》 SCIE EI CAS CSCD 2020年第1期96-103,共8页
To satisfy high-precision,widc-rangc,and real-time neutron flux measurement requirements by the International Thermonuclear Experimental Reactor(ITF.R),a data acquisition and control system based on fission chamber de... To satisfy high-precision,widc-rangc,and real-time neutron flux measurement requirements by the International Thermonuclear Experimental Reactor(ITF.R),a data acquisition and control system based on fission chamber detectors and fast controller technology,has been developed for neutron flux monitor in ITER Equatorial Port#7.The signal processing units which arc based on a field programmable gate array and the PXI Express platform arc designed to realize the neutron flux measurement with I ms time resolution and a fast response less than 0.2 ms,together with real-time timestamps provided by a timing hoard.The application of the wide-range algorithm allows the system to measure up to 10^10cps with a relative error of less than 5%.Furthermore,the system is managed and controlled by a software based on the Experimental Physics and Industrial Control System,compliant with COntrol.Data Access and Communication architecture. 展开更多
关键词 neutron flux monitor data acquisition.CODAC F.PICS
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Experimental observation of the transport induced by ion Bernstein waves near the separatrix of magnetic nulls 被引量:1
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作者 Renchuan HE Xiaoyi YANG +8 位作者 Chijie XIAO Xiaogang WANG Tianchao XU Zhibin GUO Yue GE Xiuming YU Zuyu ZHANG Rui KE Ruixin YUAN 《Plasma Science and Technology》 SCIE EI CAS CSCD 2022年第11期63-69,共7页
The waves in a magnetic null could play important roles during 3D magnetic reconnection.Some preliminary clues in this paper show that the ion Bernstein wave(IBW)may be closely related to transport process in magnetic... The waves in a magnetic null could play important roles during 3D magnetic reconnection.Some preliminary clues in this paper show that the ion Bernstein wave(IBW)may be closely related to transport process in magnetic null region.The magnetic null configuration experiment reported here is set up in a linear helicon plasma device,Peking University plasma test device(PPT).The wave modes with frequencies between the first and third harmonics of local ion cyclotron frequency(w_(ci))are observed in the separatrix of magnetic null,which are identified as the IBW based on the dispersion relation.Further analysis shows that IBW could drive substantial particle flux across the magnetic separatrix.The theoretical radial particle flux driven by IBW and the measured parallel flow in PPT device are almost on the same order,which shows that IBW may play an important role during 3D reconnection process. 展开更多
关键词 SEPARATRIX ion Bernstein wave particle transport magnetic null magnetic reconnection
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High-precision and wide-range real-time neutron flux monitor system through multipoint linear calibration 被引量:4
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作者 Ren-Jie Zhu Xiang Zhou +9 位作者 Zi-Hao Liu Wen-Di Wang Xiao-Li Mou Teng-Fei Fang Qing-Li Ma Xiu-Feng Xu Guo-Liang Yuan Li Zhao Ling-Feng Wei Ze-Jie Yin 《Nuclear Science and Techniques》 SCIE CAS CSCD 2020年第9期98-106,共9页
The neutron flux monitor(NFM)system is an important diagnostic subsystem introduced by large nuclear fusion devices such as international thermonuclear experimental reactor(ITER),Japan torus-60,tokamak fusion test rea... The neutron flux monitor(NFM)system is an important diagnostic subsystem introduced by large nuclear fusion devices such as international thermonuclear experimental reactor(ITER),Japan torus-60,tokamak fusion test reactor,and HL-2 A.Neutron fluxes can provide real-time parameters for nuclear fusion,including neutron source intensity and fusion power.Corresponding to different nuclear reaction periods,neutron fluxes span over seven decades,thereby requiring electronic devices to operate in counting and Campbelling modes simultaneously.Therefore,it is crucial to design a real-time NFM system to encompass such a wide dynamic range.In this study,a high-precision NFM system with a wide measurement range of neutron flux is implemented using realtime multipoint linear calibration.It can automatically switch between counting and Campbelling modes with variations in the neutron flux.We established a testing platform to verify the feasibility of the NFM system,which can output the simulated neutron signal using an arbitrary waveform generator.Meanwhile,the accurate calibration interval of the Campbelling mode is defined well.Based on the above-mentioned design,the system satisfies the requirements,offering a dynamic range of 10~8 cps,temporal resolution of 1 ms,and maximal relative error of 4%measured at the signal-to-noise ratio of 15.8 dB.Additionally,the NFM system is verified in a field experiment involving HL-2 A,and the measured neutron flux is consistent with the results. 展开更多
关键词 Multipoint linear calibration Real time Simulated neutron signal Neutron flux monitoring ITER HL-2A
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A novel digital neutron flux monitor for international thermonuclear experimental reactor 被引量:1
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作者 Xiang ZHOU Zihao LIU +4 位作者 Chao CHEN Renjie ZHU Li ZHAO Lingfeng WEI Zejie YIN 《Plasma Science and Technology》 SCIE EI CAS CSCD 2018年第6期194-199,共6页
A novel full-digital real-time neutron flux monitor(NFM) has been developed for the International Thermonuclear Experimental Reactor.A measurement range of 10~9 counts per second is achieved with 3 different sensiti... A novel full-digital real-time neutron flux monitor(NFM) has been developed for the International Thermonuclear Experimental Reactor.A measurement range of 10~9 counts per second is achieved with 3 different sensitive fission chambers.The Counting mode and Campbelling mode have been combined as a means to achieve higher measurement range.The system is based on high speed as well as parallel and pipeline processing of the field programmable gate array and has the ability to upload raw-data of analog-to-digital converter in real-time through the PXIe platform.With the advantages of the measurement range,real time performance and the ability of raw-data uploading,the digital NFM has been tested in HL-2 A experiments and reflected good experimental performance. 展开更多
关键词 fusion neutron flux ITER diagnostic system
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