Surface temperature effects on hydrogen and impurity release from the limiter studied by means of visible and near infrared spectroscopic measurement in TRIAM-1M

R. Bhattacharyay; H. Zushi; K. Nakashima; T. Shikama; M. Sakamoto; M. Ogawa; K. Nakamura; N. Yoshida; S. Kado; K. Sawada; Y. Hirooka; K. Hanada; K. N. Sato; H. Idei; K. Sasaki; H. Xu; M. Hasegawa; K. Uehara; A. Tsushima; N. Kimura; Y. Nozaki; S. Kawasaki; H. Nakashima; A. Higashijima

doi:10.1016/j.jnucmat.2007.01.117

Surface temperature effects on hydrogen and impurity release from the limiter studied by means of visible and near infrared spectroscopic measurement in TRIAM-1M

R. Bhattacharyay, H. Zushi, K. Nakashima, T. Shikama, M. Sakamoto, M. Ogawa, K. Nakamura, N. Yoshida, S. Kado, K. Sawada, Y. Hirooka, K. Hanada, K. N. Sato, H. Idei, K. Sasaki, H. Xu, M. Hasegawa, K. Uehara, A. Tsushima, N. KimuraY. Nozaki, S. Kawasaki, H. Nakashima, A. Higashijima

Division of Nuclear Fusion Dynamics

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4 Citations (Scopus)

Abstract

Tokamak operation has been performed under the localized plasma wall interaction conditions in TRIAM-1M, using a water cooled rail movable limiter (ML) made of Molybdenum. The limiter surface temperature dependence on hydrogen recycling and neutral molybdenum impurity production behaviour has been studied using visible as well as infrared spectroscopy during low power long pulse and high power short pulse discharges. In these experiments it is considered that escaped energetic electrons are lost mainly on ML and localised heat deposition makes a 'hot spot' on ML. It has been observed that H₂, H_α and MoI intensities critically depend on the hot spot temperature (T_hot) and enhanced recycling due to localized PWI on ML can fuel the discharge without any external fueling source.

Original language	English
Pages (from-to)	938-943
Number of pages	6
Journal	Journal of Nuclear Materials
Volume	363-365
Issue number	1-3
DOIs	https://doi.org/10.1016/j.jnucmat.2007.01.117
Publication status	Published - Jun 15 2007

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Materials Science(all)
Nuclear Energy and Engineering

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10.1016/j.jnucmat.2007.01.117

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Bhattacharyay, R., Zushi, H., Nakashima, K., Shikama, T., Sakamoto, M., Ogawa, M., Nakamura, K., Yoshida, N., Kado, S., Sawada, K., Hirooka, Y., Hanada, K., Sato, K. N., Idei, H., Sasaki, K., Xu, H., Hasegawa, M., Uehara, K., Tsushima, A., ... Higashijima, A. (2007). Surface temperature effects on hydrogen and impurity release from the limiter studied by means of visible and near infrared spectroscopic measurement in TRIAM-1M. Journal of Nuclear Materials, 363-365(1-3), 938-943. https://doi.org/10.1016/j.jnucmat.2007.01.117

Bhattacharyay, R, Zushi, H, Nakashima, K, Shikama, T, Sakamoto, M, Ogawa, M, Nakamura, K, Yoshida, N, Kado, S, Sawada, K, Hirooka, Y, Hanada, K, Sato, KN, Idei, H, Sasaki, K, Xu, H, Hasegawa, M, Uehara, K, Tsushima, A, Kimura, N, Nozaki, Y, Kawasaki, S, Nakashima, H & Higashijima, A 2007, 'Surface temperature effects on hydrogen and impurity release from the limiter studied by means of visible and near infrared spectroscopic measurement in TRIAM-1M', Journal of Nuclear Materials, vol. 363-365, no. 1-3, pp. 938-943. https://doi.org/10.1016/j.jnucmat.2007.01.117

@article{efb441f547ad44faae83a949059813bf,

title = "Surface temperature effects on hydrogen and impurity release from the limiter studied by means of visible and near infrared spectroscopic measurement in TRIAM-1M",

abstract = "Tokamak operation has been performed under the localized plasma wall interaction conditions in TRIAM-1M, using a water cooled rail movable limiter (ML) made of Molybdenum. The limiter surface temperature dependence on hydrogen recycling and neutral molybdenum impurity production behaviour has been studied using visible as well as infrared spectroscopy during low power long pulse and high power short pulse discharges. In these experiments it is considered that escaped energetic electrons are lost mainly on ML and localised heat deposition makes a 'hot spot' on ML. It has been observed that H2, Hα and MoI intensities critically depend on the hot spot temperature (Thot) and enhanced recycling due to localized PWI on ML can fuel the discharge without any external fueling source.",

author = "R. Bhattacharyay and H. Zushi and K. Nakashima and T. Shikama and M. Sakamoto and M. Ogawa and K. Nakamura and N. Yoshida and S. Kado and K. Sawada and Y. Hirooka and K. Hanada and Sato, {K. N.} and H. Idei and K. Sasaki and H. Xu and M. Hasegawa and K. Uehara and A. Tsushima and N. Kimura and Y. Nozaki and S. Kawasaki and H. Nakashima and A. Higashijima",

note = "Funding Information: The authors would like to thank Professor Yokamine for providing the computer code for the calculation of temperature distribution on the ML surface. This work is partially supported by a Grant-in-aid for Scientific Research from Ministry of Education, Science and Culture of Japan.",

year = "2007",

month = jun,

day = "15",

doi = "10.1016/j.jnucmat.2007.01.117",

language = "English",

volume = "363-365",

pages = "938--943",

journal = "Journal of Nuclear Materials",

issn = "0022-3115",

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TY - JOUR

T1 - Surface temperature effects on hydrogen and impurity release from the limiter studied by means of visible and near infrared spectroscopic measurement in TRIAM-1M

AU - Bhattacharyay, R.

AU - Zushi, H.

AU - Nakashima, K.

AU - Shikama, T.

AU - Sakamoto, M.

AU - Ogawa, M.

AU - Nakamura, K.

AU - Yoshida, N.

AU - Kado, S.

AU - Sawada, K.

AU - Hirooka, Y.

AU - Hanada, K.

AU - Sato, K. N.

AU - Idei, H.

AU - Sasaki, K.

AU - Xu, H.

AU - Hasegawa, M.

AU - Uehara, K.

AU - Tsushima, A.

AU - Kimura, N.

AU - Nozaki, Y.

AU - Kawasaki, S.

AU - Nakashima, H.

AU - Higashijima, A.

N1 - Funding Information: The authors would like to thank Professor Yokamine for providing the computer code for the calculation of temperature distribution on the ML surface. This work is partially supported by a Grant-in-aid for Scientific Research from Ministry of Education, Science and Culture of Japan.

PY - 2007/6/15

Y1 - 2007/6/15

N2 - Tokamak operation has been performed under the localized plasma wall interaction conditions in TRIAM-1M, using a water cooled rail movable limiter (ML) made of Molybdenum. The limiter surface temperature dependence on hydrogen recycling and neutral molybdenum impurity production behaviour has been studied using visible as well as infrared spectroscopy during low power long pulse and high power short pulse discharges. In these experiments it is considered that escaped energetic electrons are lost mainly on ML and localised heat deposition makes a 'hot spot' on ML. It has been observed that H2, Hα and MoI intensities critically depend on the hot spot temperature (Thot) and enhanced recycling due to localized PWI on ML can fuel the discharge without any external fueling source.

AB - Tokamak operation has been performed under the localized plasma wall interaction conditions in TRIAM-1M, using a water cooled rail movable limiter (ML) made of Molybdenum. The limiter surface temperature dependence on hydrogen recycling and neutral molybdenum impurity production behaviour has been studied using visible as well as infrared spectroscopy during low power long pulse and high power short pulse discharges. In these experiments it is considered that escaped energetic electrons are lost mainly on ML and localised heat deposition makes a 'hot spot' on ML. It has been observed that H2, Hα and MoI intensities critically depend on the hot spot temperature (Thot) and enhanced recycling due to localized PWI on ML can fuel the discharge without any external fueling source.

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JF - Journal of Nuclear Materials

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Surface temperature effects on hydrogen and impurity release from the limiter studied by means of visible and near infrared spectroscopic measurement in TRIAM-1M

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