K. Narihara
Australian National University
8 Papers
18 Citations
K. Narihara is an academic researcher from Australian National University. The author has contributed to research in topics: Thomson scattering & Electron. The author has an hindex of 6, co-authored 8 publications.
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Papers
Configuration effect on energy confinement and local transport in LHD and contribution to the international stellarator database
Hiroshi Yamada,K. Ida,Sadayoshi Murakami,K. Y. Watanabe,E. Ascasibar,R. Brakel,Andreas Dinklage,J. H. Harris,S. Okamura,Fumimichi Sano,U. Stroth,Shigeru Inagaki,K. Tanaka,M. Goto,K. Nishimura,K. Narihara,S. Morita,Satoru Sakakibara,B. J. Peterson,R. Sakamoto,J. Miyazawa,T. Morisaki,M. Osakabe,K. Toi,Naoki Tamura,K. Ikeda,K. Yamazaki,K. Kawahata,O. Kaneko,N. Ohyabu,A. Komori,O. Motojima +31 more
TL;DR: In this paper, the revision of the international stellarator database has been initiated, driven by emerging interests and by the requirements for a reactor assessment, and the results from the magnetic axis and elongation scans in LHD are highlighted.
16
Edge profile measurements using Thomson scattering on the KSTAR tokamak.
Jaehyun Lee,S. Oh,W. R. Lee,W. H. Ko,K. P. Kim,K. D. Lee,Y. M. Jeon,S. W. Yoon,K. W. Cho,K. Narihara,Ichihiro Yamada,Ryo Yasuhara,Takaki Hatae,E. Yatsuka,T. Ono,J. H. Hong +15 more
TL;DR: The KSTAR TTS system is briefly described and some TTS edge profiles are presented and compared against the KSTAR Charge Exchange Spectroscopy and other diagnostics.
2
Dimensionless Transport Analysis on Plasma Radial Profiles in LHD
K. "Yamazaki,K. Narihara,K. Tanaka,T. Amano,H. Yamada,S. Sakakibara,K. Ida,M. Osakabe,O. Motojima +8 more
- 01 Jan 2000
TL;DR: For the confinement data analysis of large Helical Device (LHD), the iPRE-TOTALi code is developed for the Toroidal Transport Analysis Code iTOTALi.
Extension of the measurable temperature range of the LHD Thomson scattering system.
TL;DR: The large helical device Thomson scattering system was designed for the target electron temperature (T(e)) range, T(e) = 50 eV-10 keV, but the range above 10 keV is too small for reliable data quality, so the aim is to extend the range by following two methods.
Radial electron temperature measurements by using newly installed Thomson scattering system in GAMMA 10
Masayuki Yoshikawa,F. Yaguchi,Y. Miyata,M. Morimoto,Yoriko Shima,Yousuke Nakashima,Makoto Ichimura,Tsuyoshi Imai,Ichihiro Yamada,Kazuo Kawahata,H. Funaba,Ryo Yasuhara,K. Narihara,Takashi Minami,Jaehyun Lee +14 more
TL;DR: In this article, an yttrium-aluminium-garnet (YAG) Thomson scattering (TS) system was constructed and applied to the tandem mirror GAMMA 10 device to measure the electron temperature and density.