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Influence of magnetic field on power deposition in high magnetic field helicon experiment
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作者 周岩 季佩宇 +2 位作者 李茂洋 诸葛兰剑 吴雪梅 《Chinese Physics B》 SCIE EI CAS CSCD 2023年第2期379-384,共6页
Based on high magnetic field helicon experiment(HMHX), HELIC code was used to study the effect of different magnetic fields on the power deposition under parabolic distribution. This paper is divided into three parts:... Based on high magnetic field helicon experiment(HMHX), HELIC code was used to study the effect of different magnetic fields on the power deposition under parabolic distribution. This paper is divided into three parts: preliminary calculation, actual discharge experiment and calculation. The results of preliminary calculation show that a magnetic field that is too small or too large cannot produce a good power deposition effect. When the magnetic field strength is 1200 Gs,a better power deposition can be obtained. The actual discharge experiment illustrates that the change of the magnetic field will have a certain influence on the discharge phenomenon. Finally, the results of verification calculation successfully verify the accuracy of the results of preliminary simulation. The results show that in the actual discharge experiment, it can achieve the best deposition effect when the magnetic field is 1185 Gs. 展开更多
关键词 high magnetic field helicon experiment(HMHX) HELIC code magnetic field power deposition
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Experimental study of protective effects of magnetic field on blood stored at 4℃
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《中国输血杂志》 CAS CSCD 2001年第S1期351-,共1页
关键词 experimental study of protective effects of magnetic field on blood stored at 4
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Numerical experiments on the evolution in coronal magnetic configurations including a filament in response to the change in the photosphere
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作者 Hong-Juan Wang Si-Qing Liu +1 位作者 Jian-Cun Gong Jun Lin 《Research in Astronomy and Astrophysics》 SCIE CAS CSCD 2015年第3期363-375,共13页
We investigate equilibrium height of a flux rope, and its internal equilib- rium in a realistic plasma environment by carrying out numerical simulations of the evolution of systems including a current-carrying flux ro... We investigate equilibrium height of a flux rope, and its internal equilib- rium in a realistic plasma environment by carrying out numerical simulations of the evolution of systems including a current-carrying flux rope. We find that the equilib- rium height of a flux rope is approximately described by a power-law function of the relative strength of the background field. Our simulations indicate that the flux rope can escape more easily from a weaker background field. This further confirms that a catastrophe in the magnetic configuration of interest can be triggered by a decrease in strength of the background field. Our results show that it takes some time to reach internal equilibrium depending on the initial state of the flux rope. The plasma flow inside the flux rope due to the adjustment for the internal equilibrium of the flux rope remains small and does not last very long when the initial state of the flux rope com- mences from the stable branch of the theoretical equilibrium curve. This work also confirms the influence of the initial radius of the flux rope in its evolution; the results indicate that a flux rope with a larger initial radius erupts more easily. In addition, by using a realistic plasma environment and a much higher resolution in our simulations, we notice some different characteristics compared to previous studies in Forbes. 展开更多
关键词 Sun: eruptions -- Sun: magnetic fields -- magnetohydrodynamics(MHD) -- numerical experiments
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Control System Design and Test for Cryogenic Ground Support Equipment 被引量:1
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作者 杨煜普 李祥宝 +2 位作者 季睿 宫亮 SCHINZEL Dietrich 《Journal of Shanghai Jiaotong university(Science)》 EI 2011年第5期543-550,共8页
The cryogenic ground support equipment (CGSE) is an important part of Alpha Magnetic Spectrometer-02 (AMS-02) experiment which is a particle physics experiment. CGSE is used to cool down the superconducting magnet of ... The cryogenic ground support equipment (CGSE) is an important part of Alpha Magnetic Spectrometer-02 (AMS-02) experiment which is a particle physics experiment. CGSE is used to cool down the superconducting magnet of AMS-02 to its operating temperature of 1.8K and to fill the magnet helium tank with superfluid helium. This paper introduces the control system of CGSE and presents the performance of the system. 展开更多
关键词 superconducting magnet cryogenic control system Alpha Magnetic Spectrometer-02 experiment
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