Spectroscopic measurement of the degree of ionization in a helium electron cyclotron resonance discharge in a simple cusp field

Akira Ueda; Taiichi Shikama; Tatsuya Teramoto; Takanori Higashi; Yohei Iida; Masahiro Hasuo

doi:10.1063/1.4998969

Spectroscopic measurement of the degree of ionization in a helium electron cyclotron resonance discharge in a simple cusp field

Akira Ueda, Taiichi Shikama, Tatsuya Teramoto, Takanori Higashi, Yohei Iida, Masahiro Hasuo

Faculty of Science

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

For an electron cyclotron resonance (ECR) discharge, a simple cusp field can improve electron confinement and enhance the degree of ionization (DOI) without sacrificing accessibility to the plasma. In this study, the spatial distribution of the DOI is experimentally revealed in a helium plasma produced with widely used 2.45 GHz and 800 W microwaves. The DOI is evaluated from the electron density and ground state atom density measured using HeI emission line intensities and by collisional-radiative model analysis. It is found that the DOI increases to more than 15% within a reasonably large volume surrounded by the ECR surface and locally reaches as high as 25%.

Original language	English
Article number	074101
Journal	Applied Physics Letters
Volume	111
Issue number	7
DOIs	https://doi.org/10.1063/1.4998969
State	Published - 2017/08/14

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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title = "Spectroscopic measurement of the degree of ionization in a helium electron cyclotron resonance discharge in a simple cusp field",

abstract = "For an electron cyclotron resonance (ECR) discharge, a simple cusp field can improve electron confinement and enhance the degree of ionization (DOI) without sacrificing accessibility to the plasma. In this study, the spatial distribution of the DOI is experimentally revealed in a helium plasma produced with widely used 2.45 GHz and 800 W microwaves. The DOI is evaluated from the electron density and ground state atom density measured using HeI emission line intensities and by collisional-radiative model analysis. It is found that the DOI increases to more than 15% within a reasonably large volume surrounded by the ECR surface and locally reaches as high as 25%.",

author = "Akira Ueda and Taiichi Shikama and Tatsuya Teramoto and Takanori Higashi and Yohei Iida and Masahiro Hasuo",

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doi = "10.1063/1.4998969",

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T1 - Spectroscopic measurement of the degree of ionization in a helium electron cyclotron resonance discharge in a simple cusp field

AU - Ueda, Akira

AU - Shikama, Taiichi

AU - Teramoto, Tatsuya

AU - Higashi, Takanori

AU - Iida, Yohei

AU - Hasuo, Masahiro

PY - 2017/8/14

Y1 - 2017/8/14

N2 - For an electron cyclotron resonance (ECR) discharge, a simple cusp field can improve electron confinement and enhance the degree of ionization (DOI) without sacrificing accessibility to the plasma. In this study, the spatial distribution of the DOI is experimentally revealed in a helium plasma produced with widely used 2.45 GHz and 800 W microwaves. The DOI is evaluated from the electron density and ground state atom density measured using HeI emission line intensities and by collisional-radiative model analysis. It is found that the DOI increases to more than 15% within a reasonably large volume surrounded by the ECR surface and locally reaches as high as 25%.

AB - For an electron cyclotron resonance (ECR) discharge, a simple cusp field can improve electron confinement and enhance the degree of ionization (DOI) without sacrificing accessibility to the plasma. In this study, the spatial distribution of the DOI is experimentally revealed in a helium plasma produced with widely used 2.45 GHz and 800 W microwaves. The DOI is evaluated from the electron density and ground state atom density measured using HeI emission line intensities and by collisional-radiative model analysis. It is found that the DOI increases to more than 15% within a reasonably large volume surrounded by the ECR surface and locally reaches as high as 25%.

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DO - 10.1063/1.4998969

M3 - 学術論文

AN - SCOPUS:85027397714

SN - 0003-6951

VL - 111

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 7

M1 - 074101

ER -

Spectroscopic measurement of the degree of ionization in a helium electron cyclotron resonance discharge in a simple cusp field

Abstract

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