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Volume 23 Issue 5
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Citation:
shu

Dynamic reserch of magnetically confined gas discharge stabilization

  • 1.

    National Laboratory of Laser Technology, HUST, Wuhan, 430074;

  • 2.

    Anhui Institute of Optical and Fine Mechanics, Hefei, 230031

  • Received Date: 1998-09-26
  • The gas discharge is widely utilized to pump the variety of gas lasers.This paper introduced the transverse magnetically confined technique to maintain the uniform and rapidly rotating glow discharge in a big volume.The system consists of a 500cm×8cm×2cm Rogowsky electrodes,and two rows of magnets are set in the cathode.According to the differences of Lorentz force of discharge particles,the discharge space is divided into three regions.Based on liquid dynamics,this paper set a expression to describe the rotational velocity distribution in discharge region and gave the numerical solution.
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    Seguin H J J,Capjack C E,Antoniuk D M et al.A P L,1980;37(2):130~133
    [2] 陈清明,周凤晴,李晓平et al.激光技术,1995;19(5):261~263
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    Li J,Chen Q M,Xu Q H et al.J Phys D,1994;27:2508~2512
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    Xu Q H,Chen Q M,Li J.J Phys D,1994;27:795~800
    [5]

    Thomas C L.Software for Numerical Mathematics.Academic Loughborough,England,1974:315
    [6]

    Capjack C E,Antoniuk D M,Seguin H J J.J A P,1981;52(7):4517~4522
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  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

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Dynamic reserch of magnetically confined gas discharge stabilization

  • 1. National Laboratory of Laser Technology, HUST, Wuhan, 430074;
  • 2. Anhui Institute of Optical and Fine Mechanics, Hefei, 230031
  • Received Date: 1998-09-26
  • Available Online: 1999-09-25

Abstract: The gas discharge is widely utilized to pump the variety of gas lasers.This paper introduced the transverse magnetically confined technique to maintain the uniform and rapidly rotating glow discharge in a big volume.The system consists of a 500cm×8cm×2cm Rogowsky electrodes,and two rows of magnets are set in the cathode.According to the differences of Lorentz force of discharge particles,the discharge space is divided into three regions.Based on liquid dynamics,this paper set a expression to describe the rotational velocity distribution in discharge region and gave the numerical solution.

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