Defects Induced by High-Temperature Neutron Irradiation in 250 µm-Thick 4H-SiC p-n Junction Detector. [PDF]
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Nucleation of Helium in Liquid Lithium at 843 K and High Pressures. [PDF]
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The Spherical Tokamak for Energy Production (STEP) in context: UK public sector approach to fusion energy. [PDF]
Philos Trans A Math Phys Eng SciBaker A.
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A molecular dynamics study of the sputtering processes of beryllium species by hydrogenic plasma. [PDF]
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Prospects and Challenges of Proton Conducting Cerates in Electrochemical Hydrogen Devices for Clean Energy Systems: A Review. [PDF]
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Preliminary assessment of the safety factors in K-DEMO for fusion compatible regulatory framework. [PDF]
Sci Rep, 2022 Kim BS, Hong SH, Kim K.
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<i>Ab initio</i> study of hydrogen and helium diffusion in Be<sub>2</sub>Ti. [PDF]
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Staying positive: producing net power. [PDF]
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Advances in High-Temperature Irradiation-Resistant Neutron Detectors. [PDF]
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Breeding blanket development; Tritium release from breeder
Breeding blanket development; Tritium release from breeder核融合炉ブランケットを設計するためには、微小球を用いたブランケット構造体の中性子照射に関する工学的データが必要不可欠である。工学的データのうち、トリチウム生成放出特性は、最も重要なデータの1つである。このため、トリチウム増殖材料の候補材であるチタン酸リチウム(Li$_{2}$TiO$_{3}$)微小球からのトリチウム生成放出試験を行い、トリチウム放出特性に対するスイープガス流量,照射温度,スイープガス中の水素添加量,熱中性子束の変化等の効果について調べた。本試験の結果、(1)Li$_{2}$TiO$_{3}$微小球充填体の外壁温度が100$^{\circ}$C以上になった時、トリチウム放出が観測された。また、充填体の外壁温度が300$\sim$400$^{\circ}$Cのとき、トリチウム生成 ...
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