Ｂ32：メソポーラスシリカによるトリチウム水の脱着

（富山大水素研セ）○田口　明、齋藤真貴子、鳥養祐二、松山政夫

P1-21:Tritium Retention on Stainless Steel Surface Exposed to Plasmas in LHD

M. Matsuyama [Univ. of Toyama]

P1-28:Deuterium Trapping by Radiation Defects in Tungsten

Y. Hatano [Univ. of Toyama]

P1-5:Tritium accumulation in plasma facing walls

Y. Torikai [Univ. of Toyama]

P1-6:Behavior of hydrogen isotopes in neutron- irradiated plasma-facing materials

Y. Hatano [Univ. of Toyama]

P3-3:Accumulation and removal of tritium

Y. Hatano [Univ. of Toyama]　

24Ｐ075-Ｐ:Desorption Behavior of Hydrogen Isotopes Implanted into Stainless Steel by Glow Discharge

M. Kondo [Univ. of Toyama]

24Ｐ090-Ｐ:Deuterium Retention of Tungsten with Surface Nanostructures

J. Shi [Univ. of Toyama]　

24Ｐ091-Ｐ:Deuterium retention in ion-damaged ITER-grade W exposed to low-energy, high-flux pure and helium-seeded deuterium plasmas

V. Alimov [Univ. of Toyama]　

T3_JA: Fabrication of tritium permeation barrier coatings on ferritic steel by wet-chemical methods

Y. Hatano [Univ. of Toyama]

T6_JA: Gas evolution from Li_2+xTiO_3+y stored in moist air

M. Hara [Univ. of Toyama]

64：交流磁束計によるPd水素化物の磁化率及び電気抵抗の非接触同時測定

（富山大水素研セ）○赤丸悟士、原　正憲、松山政夫　

O2-B-C3,15-092:Effects of Neutron and Ion Irradiations on Retention of Hydrogen Isotopes in Pure Tungsten

Y. Hatano¹, M. Shimada², Y. Oya³, M. Kobayashi³, T. Oda⁴, G. Cao⁵, M. Hara¹, P. Calderoni², V. Alimov¹, H. Watanabe⁶, H. Kurishita⁷, B. Tyburska-Püschel⁸, I, Takagi⁹, M. Sokolov^10
1[Hydrogen Isotope Research Center, University of Toyama]
²[Fusion Safety Program, Idaho National Laboratory (INL)]
³[Radioscience Research Laboratory, Faculty of Science, Shizuoka University]
⁴[Department of Nuclear Engineering and Management, The University of Tokyo]
⁵[Department of Engineering Physics, The University of Wisconsin]
⁶[Research Institute for Applied Mechanics, Kyushu University]
⁷[Institute of Material Research, Tohoku University]
⁸[Institute fur Plasmaphysik, EURATOM Association]
⁹[Department of Nuclear Engineering, Kyoto University]
¹⁰[Oak Ridge National Laboratory (ORNL)]

15-088:Tritium Uptake and Release Behavior off F82H

M. Saito¹, Y.Torikai¹, A. Taguchi¹, K. Isobe², H. Nakamura², T. Hayashi², T. Yamanishi^2
1[Hydrogen Isotope Research Center, University of Toyama]
²[Tritium Technology Group, Japan Atomic Energy Agency]

15-199:Behavior of Deuterium Retention and Surface Morphology for VPS-W/F82H

Y. Oya¹, M. Shimada², T. Tokunaga³, H. Watanabe³, N. Yoshida³, Y. Hatano⁴, R. Kasada⁵, T. Nagasaka³, A. Kimura⁵, K. Okuno^1
1[Radioscience Research Laboratory, Faculty of Science, Shizuoka University]
²[Fusion Safety Program, Idaho National Laboratory]
³[Research Institute for Applied Mechanics, Kyushu University]
⁴[Hydrogen Isotope Research Center, University of Toyama]
⁵[Institute of Advanced Energy, Kyoto University]
⁶[National Institute for Fusion Science]

15-214:Study of Carbon Simultaneous Implantation Effects on Deuterium Retention in Tungsten

K. Kawasaki¹, M. Kobayashi¹, K. Matsuoka¹, A. Hamada¹, Y. Miyahara¹, N. Ashikawa², A. Sagara², N. Yoshida³, Y. Hatano⁴, Y. Oya¹, K. Okuno^1
1[Radioscience Research Laboratory, Faculty of Science, Shizuoka University]
²[National Institute for Fusion Science]
³[Research Institute for Applied Mechanics, Kyushu University]
⁴[Hydrogen Isotope Research Center, University of Toyama]

15-235:Retention of Tritium in Multi-layer Phosphate/Oxide Tritium Permeation Barrier

K. Zhang, Y. Hatano
[Hydrogen Isotope Research Center, University of Toyama]

15-254:In-Situ Observation of Deuterium Trapping in Self-Ion Irradiated Tungsten

I. Takagi¹, K. Yamamichi¹, Y. Furuta¹, M. Akiyoshi¹, T. Sasaki¹, H. Tsuchida¹, Y. Hatano^2
1[Graduate School of Engineering, Kyoto University]
²[Hydrogen Isotope Research Center, University of Toyama]

15-299: System Integration Study of W-Armored Structure Components

A. Kimura¹, S. Noh¹, Y. Himei¹, R. Kasada¹, K. Tokunaga², T. Tokunaga², H. Watanabe², N. Yoshida², T. Nagasaka³, M. Tokitani³, T. Muroga³, S. Nogami⁴, Y. Ueda⁵, M. Sato⁶, Y. Hatano⁷, Y. Oya^8
1[Institute of Advanced Energy, Kyoto University]
²[Research Institute of Advanced Mechanics, Kyushu University]
³[National Institute of Fusion Science]
⁴[Graduate School of Quantum Engineering, Tohoku University]
⁵[Graduate School of Engineering, Osaka University]
⁶[Hachinohe Institute of Technology]
⁷[Hydrogen Research Center, University of Toyama]
⁸[Radiochemistry Research Center, Shizuoka University]

15-313:Study on Kinetics of Hydrogen Dissolution and Hydrogen Solubility in Oxides using Imaging Plate Technique

K. Hashizume¹, K. Ogata¹, M. Nishikawa¹, T. Tanabe¹, S. Abe², S. Akamaru², Y. Hatano^2
1[Interdisciplinary Graduate School of Engineering Science, Kyushu Univ.]
²[Hydrogen Isotope Research Center, Univ. of Toyama]

15-356:Tritium Behavior in Silicon Carbide in Contact with Solid Breeder under HFIR Irradiation

H. Katsui¹, Y. Katoh², A. Hasegawa³, M. Shimada⁴, Y. Hatano⁵, T. Hinoki⁶, S. Nogami³, T. Tanaka⁷, S. Nagata¹,T. Shikama^1
1[Institute for Materials Research, Tohoku University]
²[Materials Science and Technology Division, Oak Ridge National Laboratory]
³[Department of Quantum Science and Energy Engineering, Tohoku University]
⁴[Fusion Safety Program, Idaho National Laboratory]
⁵[Hydrogen Isotope Research Center, University of Toyama]
⁶[Institute of Advanced Energy, Kyoto University]
⁷[Department of Helical Plasma Research, National Institute for Fusion Science]

15-482:Modification of Plasma Facing Surfaces in LHD and its Effects on Hydrogen Retention

H. Harada¹, N. Yoshida², T. Fujiwara², R. Yoshihara², H. Watanabe², S. Masuzaki³, M. Tokitani³, N. Ashikawa³, Y. Oya⁴, K. Okuno⁴, Y. Hatano^5
1[Interdisciplinary Graduate School of Engineering Sciences, Kyushu University]
²[Research Institute for Applied Mechanics, Kyushu University]
³[National Institute for Fusion Science]
⁴[Shizuoka University]
⁵[University of Toyama]

15-483:Interaction of Implanted Deuterium with Lattice Defects in Tungsten

S. Miyamoto¹, N. Yoshida², H. Watanabe², Y. Hatano^3
1[Interdisciplinary Graduate School of Engineering Sciences, Kyushu University]
²[Research Institute for Applied Mechanics, Kyushu University]
³[University of Toyama]

Trapping and dissolution of tritium in fusion related materials

M. Matsuyama[Univ.of Toyama]

3P23：Li_2+XTiO_3+yからの水の放出挙動

（金沢大院自然）○水内理映子、（富山大水素研）原　正憲、松山政夫、（静岡大理放射研）大矢恭久、奥野健二

H36：グロー放電によってステンレス銅に注入された重水素の放出挙動（Ⅲ）

（富山大)○近藤将充、松山政夫、野田信明、
（核融合研）西村清彦、田中将裕

Ｇ19：高温重水下における材料中への重水素侵入量の測定

（JAEA）○中村博文、山西敏彦、（富山大）波多野雄治

G26：Ⅰ.プラズマ対向壁としてのタングステン中のトリチウム挙動； （４）タングステン-炭素混合層に照射した水素同位体のリサイクリング挙動および 滞留挙動

（静岡大）○大矢恭久、鈴木優斗、松岡和志、小林　真、奥野健二、
（富山大）波多野雄治、（核融合研）芦川直子、相良明男

G37：Ⅲ.構造材料中のトリチウム透過とその抑制；（１）湿式法でフェライト鋼上に成膜したZrO₂被膜の水素同位体透過防止効果

(富山大)○波多野雄治、張　　鯤、（九大）橋爪健一

G42：Ⅳ.核周辺材料とトリチウムとの相互作用とその処理；（１）トリチウムの閉じ込めに関わる高濃度トリチウム水及び有機物の化学的現象の解明

(JAEA) ○山西敏彦、林　巧、岩井保則、磯部兼嗣、 （富山大）原　正憲、（名大）杉山貴彦、（静岡大）奥野健二

G43：Ⅳ.核周辺材料とトリチウムとの相互作用とその処理；（2）セルロース中のトリチウム水の透過挙動

（富山大）○藤樫由佳、原　正憲

Ｇ46：Ⅳ.核周辺材料とトリチウムとの相互作用とその処理；（５）イメージングプレート法による汚染材料中のトリチウム評価

（東北大）○大内（吉田）浩子、木野康志、（富山大）波多野雄治、 (JAEA) Mohammadi Akram、（石巻専修大）近藤泰洋

Ｇ50：磁化率測定による貯蔵ベッド吸蔵水素量の簡易計量法の検討

（富山大）○赤丸悟士、原　正憲、波多野雄治、松山政夫

Ｈ02：核融合炉材料のトリチウムの汚染とその除染（Ⅰ）：タングステンへのトリチウムの蓄積とその除染

（富山大）○中山将人、鳥養祐二、齋藤真貴子、 (JAEA) 磯部兼嗣、山西敏彦

Ｈ07：低エネルギーヘリウム照射されたタングステンにおける損傷とヘリウムの滞留挙動

（九大）○二神直樹、渡辺英雄、吉田直亮、（富山大）波多野雄治

Ｈ10：湿潤空気下で保管したLi_2+XTiO_3+y からのガス放出挙動

（富山大）○原　正憲、水内理映子、松山政夫、（静岡大）大矢恭久、奥野健二

1-010：Measurements of H, D and He in Plasma-Facing Materials by Glow-Discharge Optical Emission Spectroscopy

Y.Hatano², N. Futagami¹, H. Harada¹, H. Nakamura², Y. Oya⁴, D. Shi ², Tounaga¹, N. Yoshida^1
1[Research Institute of Applied Mechanics, Kyushu University]
²[Hydrogen Isotope Research Center, University of Toyama]
³[Tritium Technology Group, Japan Atomic Enegy Agency]
⁴[Radioscience Research Laboratory, Faculty of Science, Shizuoka University Reliable analysis of plasma-facing]

1-011：Measurement of Tritium Concentration in Water with Imaging Plate

Y.Hatano¹, M. Hara¹, H. Nakamura², H. Ohuchi³, T. Yamanishi ^2
1[Hydrogen Isotope Research Center, University of Toyama]
²[Tritium Technology Group, Japan Atomic Energy Agency]
³[Graduate school of Pharmaceutical Scjences, Tohoku University]

1-015：Overview of the US-Japan Collaborative Investigation on Hydrogen Isotope Retenshion in Neutron-Irradiated and Ion-damaged Tungsten

M. Shimada¹, P. Calderoni¹, G. Cao², M. Hara³, Y. Hatano³, M. Kobayashi⁴, T. Oda⁵, Y. Oya⁴, M. Sokolov⁶, B. Tyburska-Puschel⁷, Y. Ueda⁸, H. Watanabe^9
1[Fusion Safety Program, Idaho National Laboratory]
²[University of Wisconsin-Madison]
³[University of Toyama]
⁴[Shizuoka University]
⁵[The University of Tokyo, Japan]
⁶[Oak Ridge National Laboratories]
⁷[Institute fur Plasmaphysik]
⁸[Osaka UniversjtyJapan]
⁹[Kyushu University, Japan]

1-086：Effect of Hydrophobic Paints Coating for Tritium Reduction in Concrete Materials

Y. Edao¹, T. Akira², S. Fukada³, Y. Hatano², K. Kazunari³, Y. Nishimura³, T. Takeishi ^3
1[Interdisciplinary Graduate School of Engineering Sciences, Kyushu University]
²[Hydrogen Isotope Research Center, University of Toyama]
³[Kyushu University]

1-088: Permeation Behaviors of Tritium through a Type 316 Stainless Steel at Various Temperatures

Y. Oya¹, A. Hamada², Y. Hatano², T. Hayashi³, M. Kobayashi¹, K. Matsuoka¹, M. Matsuyama², K. Okuno¹, J. Osuo¹, M. Suzuki¹, T. Yamanishi ^3
1[Shizuoka University]
²[University of Toyama]
³[JAEA]

1-090:Tritium Depth Profile in Matter Using an Imaging Plate

H. Ohuchi-Yoshida¹, Y. Hatano², Y. Kino¹, Y. Kondo^3
1[Tohoku Universtity]
²[Hydrogen Isotope Research Center, University of Toyama]
³[Ishinomaki Senshu University]

2-028:Prepatation of ZrO₂ Coating by Electrochemical Technique and Its Application to Tritium Permeation Barrier

Y. Hatano, K. Zhang
[Hydrogen lsotope Research Center, University of Toyama]

3-010:Tritium Absorption of Co-deposited Carbon Films

Y. Nobuta¹, S. Akamaru², M. Akiba³, Y. Hatano¹, T.Hino¹, M. Matsuyama,², S. Suzuki³, Y. Yamauchi^1
1[Hokkaido University]
²[University ofToyama]
³[JAEA]

3-082:Deuterium Behaviour at The Interface of Oxidized Metal Under High Temperature Heavy Water

H. Nakamura¹, Y. Hatano², T. Yamanishi^1
1[Japan Atomic Energy Agency]
²[University of Toyama]

IP-01：排水自動モニター用シンチレータの変更及び実験排水測定への適用

（富山大・水素研）○中山将人、藤樫由佳、原　正憲、松山政夫

I-09：Recent Progress of Tungsten R&D for Fusion Application in Japan

Y. Ueda^a, H. T. Lee^a, N. Ohno^b, S. Kajita^c, A. Kimura^d, R. Kasada^d, T. Nagasaka^e, Y. Hatano^f, A. Hasegawa^g, H. Kurishita^h
a[Graduate School of Engineering, Osaka University]
^b[Graduate School of Engineering, Nagoya University]
^c[EcoTopia Science Institute, Nagoya University]
^d[Institute of Advanced Energy, Kyoto University]
^e[National Institute for Fusion Science]
^f[Hydrogen Isotope Research Center, University of Toyama]
^g[Department of Quantum Science and Energy Engineering, Tohoku University]
^h[Institute for Materials Research (IMR), Tohoku University]

I-17：Wet-chemical methods for fabrication of tritium permeation barrier coatings

Y. Hatano, K. Zhang

[Hydrogen Isotope Research Center, University of Toyama]

O-06:Comparison of deuterium retention for ion-irradiated and neutron-irradiated tungsten

Y. Oya^a, M. Shimada^b, T. Oda^c, M. Hara^d, Y. Hatano^d, P. Calderoni^b, K. Okuno^a

^a[Radioscience Research Laboratory, Faculty of Science, Shizuoka University]
^b[Fusion Safety Program, Idaho National Laboratory]
^c[Department of Nuclear Engineering and Management, School of Engineering, The University of Tokyo]
^d[Hydrogen Isotope Research Center, University of Toyama]

P-21B:Glow-Discharge Optical Emission Spectroscopy for Plasma-Surface Interaction Studies

Y. Hatano^a, N. Yoshida^b, N. Futagami^b, H. Harada^b, T. Tokunaga^b, H. Nakamura^c

^a[Hydrogen Isotope Research Center, University of Toyama]
^b[Research Institute of Applied Mechanics, Kyushu University]
^cTritium Technology Group, Japan Atomic Enegy Agency]

P-49B:The Tritium Ion Implantation experiment (TRIIX) for hydrogen isotopes retention measurements in plasma facing materials

X. Bai^a, M, Shimada^a, M. Hara^b, Y. Oya^c, Y. Hatano^b, P. Calderoni^a

^a[Fusion Safety Program, Idaho National Laboratory]
^b[Hydrogen Isotope Research Center, University of Toyama]
^c[Radioscience Research Laboratory, Faculty of Science, Shizuoka University]

P-50B:Deuterium Depth Profile in Neutron-Irradiated Tungsten Exposed to Plasma

M. Shimada¹, G. Cao², Y. Hatano³, T. Oda⁴, Y. Oya⁵, M. Hara³, P. Calderoni¹

¹[Fusion Safety Program, Idaho National Laboratory]
²[Department of Engineering Physics, University of Wisconsin]
³[Hydrogen Isotope Research Center, University of Toyama]
⁴[Department of Nuclear Engineering and Management, The University of Tokyo]
⁵[Radioscience Research Laboratory, Faculty of Science, Shizuoka University]

P4-097C-LN：Preparation of Nitrogen-doped TiO₂ Powder by Plasma-Treatment System

K. Matsubara, M. Inoue, T. Abe

[Hydrogen Isotope Research Center, University of Toyama]

O10: グロー放電によってステンレス鋼に注入された重水素の放出挙動(II)

（富山大）○近藤将充、松山政夫、野田信明、　
（核融合研）西村清彦、田中将裕

P47: 湿式法で成膜したリン酸塩/酸化物多層膜のトリチウム保持特性

（富山大）○張　鯤、波多野雄治

P49: ポリイミドフィルム中のトリチウム水の透過

（富山大）○藤樫由佳、原　正憲

P50: イメージングプレートを用いた水中のトリチウム濃度の測定

（富山大）○波多野雄治、（東北大）大内浩子、
（JAEA）中村博文、林　巧、山西敏彦

P52: シリカメソ多孔体によるトリチウム水の濃縮

（富山大）○赤井理恵、田口　明、鳥養祐二、斎藤真貴子、松山政夫、
（東大）小倉　賢、内田さやか

Session2: Membrane techniques for tritium separation

Y.Hatano [Hydrogen Isotope Research Center, University of Toyama]

Session1: Tritiated water permeation through polypropylene

M.Hara [Hydrogen Isotope Research Center, University of Toyama]