Present Status of the 14.5 GHz ECR Ion Source at CYRIC
スポンサーリンク
概要
著者
-
Shinozuka T.
Cyclotron and Radio-isotope Center, Tohoku Univ.
-
YAMAZAKI A.
Cyclotron and Radio-isotope Center, Tohoku University
-
FUJITA M.
Cyclotron and Radioisotope Center, Tohoku University
-
Shinozuka T.
Department Of Physics Osaka University
-
Tanaka E.
Cyclotron and Radioisotope center, Tohoku University
-
Fujita M.
Department of Physics, Nara Women's University
関連論文
- 27aWG-13 Measurement of the ^8Li(α,n)^B reaction in FY 2003 experiment
- Observation of Pionic 1s States in Sn Nuclei and Its Implications on Chiral Symmetry Restoration
- Age-related Changes in Brain Regional Activity during Chewing : A Functional Magnetic Resonance Imaging Study
- 9aSG-4 Two neutron correlation in the breakup of ^Li
- Production and Decay Properties of ^111 and its Daughter Nuclei(Nuclear Physics)
- 26aSE-5 逆運動学とRDDS法による^Rhのカイラル二重項候補の寿命測定(26aSE 高スピン・核構造,実験核物理領域)
- High-Spin Isomers in Erbuim Isotopes(International Workshop on Nuclear Structure-New Pictures in the Extended Isospin Space(NS07)-)
- 26aSE-7 Study of high-spin states in ^In
- Most Probable Charge of Fission Products in Proton-Induced Fission of^U and ^Th
- Nuclear-moment measurements of light neutron-rich nuclei utilizing fragment-induced spin-polarization and its applications(International Workshop on Nuclear Structure-New Pictures in the Extended Isospin Space(NS07)-)
- Study of high-spin shape isomers(International Workshop on Nuclear Structure-New Pictures in the Extended Isospin Space(NS07)-)
- Up Grated CYRIC Sinusoidal Beam Chopper for Fast-neutron TOF Experiment
- Development of the New Tape Transport System for ISOL
- Present Status of the 14.5 GHz ECR Ion Source at CYRIC
- Explosive Welding of a Thin Metallic Plate onto a Ceramic Plate Using Underwater Shock Wave
- 18aSL-5 ノックアウト反応による^Si核の研究(18aSL 理論核物理領域,実験核物理領域合同,不安定核(I),理論核物理領域)
- Shock-Induced Interfacial Reaction in Explosively Welded Aluminum Clad Materials
- 単一土壌集積培養系による連続嫌気/好気条件下でのテトラクロロエチレンの分解
- Mapping Brain Region Activity during Chewing : A Functional Magnetic Resonance Imaging Study