Extreme hydrogen plasma densities achieved in a linear plasma generator

G. J. van Rooij; V. P. Veremiyenko; W. J. Goedheer; B. de Groot; A. W. Kleyn; P. H. M. Smeets; T. W. Versloot; D. G. Whyte; R. Engeln; D. C. Schram; N. J. Lopes Cardozo

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Extreme hydrogen plasma densities achieved in a linear plasma generator

机译：在线性等离子发生器中获得极高的氢等离子体密度

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A magnetized hydrogen plasma beam was generated with a cascaded arc, expanding in a vacuum vessel at an axial magnetic field of up to 1.6 T. Its characteristics were measured at a distance of 4 cm from the nozzle: up to a 2 cm beam diameter, 7.5 x 10~(20) m~(-3) electron density, ～2 eV electron and ion temperatures, and 3.5 km/s axial plasma velocity. This gives a 2.6 x 10~(24) H~+ m~(-2) s~(-1) peak ion flux density, which is unprecedented in linear plasma generators. The high efficiency of the source is obtained by the combined action of the magnetic field and an optimized nozzle geometry. This is interpreted as a cross-field return current that leads to power dissipation in the beam just outside the source.

机译：产生了带有级联电弧的磁化氢等离子体束，该束在真空容器中在高达1.6 T的轴向磁场下扩展。在距喷嘴4 cm的距离处测量了其特性：束直径最大为2 cm，电子密度为7.5 x 10〜（20）m〜（-3），电子和离子温度约为2 eV，轴向等离子体速度为3.5 km / s。这给出了2.6 x 10〜（24）H〜+ m〜（-2）s〜（-1）的峰值离子通量密度，这在线性等离子体发生器中是前所未有的。通过磁场和优化的喷嘴几何形状的结合，可以实现光源的高效率。这被解释为跨场返回电流，该电流导致源外部光束的功率耗散。

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来源
《Applied Physics Letters》 |2007年第12期|p.121501.1-121501.3|共3页
作者
G. J. van Rooij; V. P. Veremiyenko; W. J. Goedheer; B. de Groot; A. W. Kleyn; P. H. M. Smeets; T. W. Versloot; D. G. Whyte; R. Engeln; D. C. Schram; N. J. Lopes Cardozo;
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作者单位

FOM-Institute for Plasma Physics Rijnhuizen, Association EURATOM-FOM, Trilateral Euregio Cluster, Nieuwegein, Uthrecht 3430BE, The Netherlands;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类应用物理学;计量学;
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入库时间 2022-08-18 03:21:01

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机译：在线性等离子发生器中获得极高的氢等离子体密度

Extreme hydrogen plasma densities achieved in a linear plasma generator

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