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Influence of a Static Magnetic Field on Laser Induced Tungsten Plasma in Air

吴鼎 刘平 孙立影 海然 丁洪斌

Plasma science & technology, 2016-04, Vol.18 (4), p.364-369 [Periódico revisado por pares]

Institute of Plasma Physics, Chinese Academy of Sciences and the Chinese Society of Theoretical and Applied Mechanics and IOP Publishing

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  • Título:
    Influence of a Static Magnetic Field on Laser Induced Tungsten Plasma in Air
  • Autor: 吴鼎 刘平 孙立影 海然 丁洪斌
  • Assuntos: Barometric pressure ; Emission ; Emission spectroscopy ; Ion recombination ; laser-induced breakdown spectroscopy ; Lasers ; magnetic field ; Magnetic fields ; Spatial distribution ; spatial evolution ; Tungsten ; tungsten plasma ; 原子发射光谱 ; 激光诱导 ; 空气 ; 空间分布 ; 空间分辨 ; 等离子体 ; ; 静磁场
  • É parte de: Plasma science & technology, 2016-04, Vol.18 (4), p.364-369
  • Notas: laser-induced breakdown spectroscopy magnetic field tungsten plasma spatial evolution
    34-1187/TL
    In this work,laser induced tungsten plasma has been investigated in the absence and presence of 0.6 T static transverse magnetic field at atmospheric pressure in air.The spectroscopic characterization of laser induced tungsten plasma was experimentally studied using space-resolved emission spectroscopy.The atomic emission lines of tungsten showed a significant enhancement in the presence of a magnetic field,while the ionic emission lines of tungsten presented little change.Temporal variation of the optical emission lines of tungsten indicated that the atomic emission time in the presence of a magnetic field was longer than that in the absence of a magnetic field,while no significant changes occurred for the ionic emission time.The spatial resolution of optical emission lines of tungsten demonstrated that the spatial distribution of atoms and ions were separated.The influence of a magnetic field on the spatial distribution of atoms was remarkable,whereas the spatial distribution of ions was little influenced by the magnetic field.The different behaviors between ions and atoms with and without magnetic field in air were related to the various atomic processes especially the electrons and ions recombination process during the plasma expansion and cooling process.
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  • Descrição: In this work,laser induced tungsten plasma has been investigated in the absence and presence of 0.6 T static transverse magnetic field at atmospheric pressure in air.The spectroscopic characterization of laser induced tungsten plasma was experimentally studied using space-resolved emission spectroscopy.The atomic emission lines of tungsten showed a significant enhancement in the presence of a magnetic field,while the ionic emission lines of tungsten presented little change.Temporal variation of the optical emission lines of tungsten indicated that the atomic emission time in the presence of a magnetic field was longer than that in the absence of a magnetic field,while no significant changes occurred for the ionic emission time.The spatial resolution of optical emission lines of tungsten demonstrated that the spatial distribution of atoms and ions were separated.The influence of a magnetic field on the spatial distribution of atoms was remarkable,whereas the spatial distribution of ions was little influenced by the magnetic field.The different behaviors between ions and atoms with and without magnetic field in air were related to the various atomic processes especially the electrons and ions recombination process during the plasma expansion and cooling process.
  • Editor: Institute of Plasma Physics, Chinese Academy of Sciences and the Chinese Society of Theoretical and Applied Mechanics and IOP Publishing
  • Idioma: Inglês
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