リケラボ論文検索は、全国の大学リポジトリにある学位論文・教授論文を一括検索できる論文検索サービスです。

リケラボ 全国の大学リポジトリにある学位論文・教授論文を一括検索するならリケラボ論文検索大学・研究所にある論文を検索できる

リケラボ 全国の大学リポジトリにある学位論文・教授論文を一括検索するならリケラボ論文検索大学・研究所にある論文を検索できる

大学・研究所にある論文を検索できる 「Application of multiple regression for sensitivity analysis of helium line emissions to the electron density and temperature in Magnum-PSI」の論文概要。リケラボ論文検索は、全国の大学リポジトリにある学位論文・教授論文を一括検索できる論文検索サービスです。
リケラボ

コピーが完了しました

URLをコピーしました

論文の公開元へ論文の公開元へ
書き出し

Application of multiple regression for sensitivity analysis of helium line emissions to the electron density and temperature in Magnum-PSI

Kajita, Shin Nishijima, Daisuke Fujii, Keisuke Akkermans, Gijs van der Meiden, Hennie 名古屋大学

2021.05

概要

Helium line intensities have been utilized to measure the electron density, ne, and temperature, Te, by comparing measured line intensities to a collisional-radiative model (CRM). In this study, we use multiple regression analysis to train a model of the helium line intensities and ne/Te obtained from a Thomson scattering system in the linear plasma device Magnum-PSI; based on the trained model, we predict ne and Te from line intensities. We show that this method can also obtain radial profiles of ne and Te. We discuss appropriate selections of line pairs for the prediction based on the multiple regression analysis. A big advantage of this method against the standard technique using CRM is that modeling of atomic population distributions is not required, which sometimes needs to take into account various effects such as radiation trapping, transport of helium atoms in metastable states, etc.

論文の公開元へ

関連論文

関連論文をもっと見る

参考文献

1. M. Griener, E. Wolfrum, M. Cavedon, R. Dux, V. Rohde, M. Sochor, J. M. Munoz Burgos, O. Schmitz and U. Stroth: Review of Scientific Instruments 89 (2018) 10D102.

2. M. Goto and K. Sawada: Journal of Quantitative Spectroscopy and Radiative Transfer 137 (2014) 23 .

3. M. Agostini, P. Scarin, R. Milazzo, V. Cervaro and R. Ghiraldelli: Review of Scientific Instruments 91 (2020) 113503.

4. S. Ma, J. Howard, B. D. Blackwell and N. Thapar: Review of Scientific Instruments 83 (2012) 033102.

5. M. Goto: J. Qunantitative Spectroscopy and Radiative Transfer 76 (2003) 331.

6. S. Sasaki, S. Takamura, S. Watanabe, S. Masuzaki, T. Kato and K. Kadota: Rev. Sci. Instrum. 67 (1996) 3521.

7. R. F. Boivin, J. L. Kline and E. E. Scime: Physics of Plasmas 8 (2001) 5303.

8. Y. Iida, S. Kado, A. Okamoto, S. Kajita, T. Shikama, D. Yamasaki and S. Tanaka: J. Plasma Fusion Research SERIES 7 (2006) 123.

9. S. Kajita, N. Ohno, S. Takamura and T. Nakano: Physics of Plasmas 13 (2006) 013301.

10. D. Nishijima and E. M. Hollmann: Plasma Physics and Controlled Fusion 49 (2007) 791.

11. S. Kajita, G. Akkermans, K. Fujii, H. van der Meiden and M. C. M. van de Sanden: AIP Advances 10 (2020) 025225.

12. T. Fujimoto, Plasma spectroscopy (Clarendon press, Oxford, 2004).

13. F. B. Rosmej, N. Ohno, S. Takamura and S. Kajita: Contrib. Plasma Phys. 48 (2008) 243.

14. S. Kajita, K. Suzuki, H. Tanaka and N. Ohno: Physics of Plasmas 25 (2018) 063303.

15. Y. Iida, S. Kado and S. Tanaka: Physics of Plasmas 17 (2010) 123301.

16. D. Nishijima, S. Kajita and G. R. Tynan: Review of Scientific Instruments 92 (2021) 023505.

17. J. Rapp et al.: Fusion Engineering and Design 85 (2010) 1455 .

18. H. J. van der Meiden et al.: Review of Scientific Instruments 83 (2012) 123505.

19. S. Kajita, D. Nishijima, E. M. Hollmann and N. Ohno: Physics of Plasmas 16 (2009) 063303.

20. S. Kajita and N. Ohno: Rev. Sci. Instrum. 82 (2011) 023501.

21. F. Pedregosa et al.: the Journal of machine Learning research 12 (2011) 2825.

参考文献をもっと見る

全国の大学の
卒論・修論・学位論文

一発検索!

この論文の関連論文を見る