| BL No. | Access Mode | Proposal No. | Review field | Title of experiment | Principal investigator | Affiliation | Location of the affiliation | Adopted BT day(s) |
|
|---|---|---|---|---|---|---|---|---|---|
| D1 | GU | 2014A0009 | Q2 | Chemical Physics and General Science | Studies on Dynamics of Highly Crosslinked Rubber by μSR | Toshiji KANAYA | Kyoto University Institute for Chemical Research | Japan | 3.00 |
| D1 | P-type | 2014A0163 | Q1 | Magnetic and Strongly Correlated Electronic Materials | Precise analysis of electronic structure of the localized P-heterocyclic singlet biradical | Shigekazu ITO | Tokyo Institute of Technology Department of Applied Chemistry, Graduate School of Science and Engineering, Tokyo Institute of Technology | Japan | 1.00 |
| D1 | GU | 2014A0187 | Q1 | Magnetic and Strongly Correlated Electronic Materials | Masatoshi HIRAISHI | High Energy Accelerator Research Organization Institute of Materials Structure Science | Japan | 4.00 | |
| D1 | GU | 2014A0196 | Q2 | Chemical Physics and General Science | Determination of muon transfer rate from muonic hydrogen atom in gaseous hydrocarbons | Kazuhiko NINOMIYA | Osaka University Graduate School of Science | Japan | 3.00 |
| D1 | GU | 2014A0198 | Q1 | Magnetic and Strongly Correlated Electronic Materials | muSR study of the possible ferromagnetic state in the heavily overdoped Bi-2201 high-Tc superconductor | Tadashi ADACHI | Sophia University Department of Engineering and Applied Sciences, Faculty of Science and Technology | Japan | 3.00 |
| D1 | GU | 2014A0204 | Q2 | Chemical Physics and General Science | Investigation of muon cascading process after muon capture by measuring pressure dependence on muonic X-ray structure for hydrogen mixture system. | Kazuhiko NINOMIYA | Osaka University Graduate School of Science | Japan | 3.00 |
| D1 | GU | 2014A0205 | Q1 | Magnetic and Strongly Correlated Electronic Materials | Special spin density distribution in T’-sturctured cuprate oxides studied by μSR | Masaki FUJITA | Tohoku university Institute for Materials Research | Japan | 2.00 |
| D1 | GU | 2014A0207 | Q2 | Chemical Physics and General Science | Shallow muonium search in the perovskite oxide KTaO3 | Takashi ITOH | Japan Atomic Energy Agency Advance Science Research Center (Tokai) | Japan | 2.00 |
| D1 | GU | 2014A0213 | Q2 | Chemical Physics and General Science | Electric properties of the surface of amorphous solid water | Katsuyuki FUKUTANI | University of Tokyo Institute of Industrial Science | Japan | 2.00 |
| D1 | GU | 2014A0217 | Q1 | Magnetic and Strongly Correlated Electronic Materials | Study of the time-reversal symmetry breaking and the penetration-depth in the non-centrosymmetric superconductivity of LaNiC2 | Susumu KATANO | Saitama University Graduate School of Science and Engineering, Physics Course | Japan | 2.00 |
| D1 | GU | 2014A0224 | Q1 | Magnetic and Strongly Correlated Electronic Materials | Kazuhiko SATOH | Saitama University Graduate School of Science and Engineering | Japan | 2.00 | |
| D1 | GU | 2014A0225 | Q2 | Chemical Physics and General Science | Hydration effect on electron transfer process in proteins and DNA probed by muon labelling method | Yoko SUGAWARA | Kitasato University School of Science | Japan | 2.00 |
| D1 | GU | 2014A0240 | Q2 | Chemical Physics and General Science | Observation of oxygen vacancy in rutile TiO2 single crystal by μSR measurement | Hiroko ARIGA | Hokkaido University CRC | Japan | 2.00 |
| D1 | GU | 2014A0290 | Q2 | Chemical Physics and General Science | $\mu^+$SR study for oxygen-ion diffusion in solids | Jun SUGIYAMA | Toyota Central R&D Labs. Inc Frontier Research Center | Japan | 3.00 |
| D2 | GU | 2014A0001 | Q2 | Chemical Physics and General Science | Development of a new elemental analysis system using negative muon capture | Takahito OSAWA | Japan Atomic Energy Agency Quantum Beam Science Directorate | Japan | 3.00 |
| D2 | GU | 2014A0190 | Q2 | Chemical Physics and General Science | Muonic X-ray measurement of metal oxides for elemental analysis | Kenya KUBO | International Christian University Material Science | Japan | 2.00 |
| D2 | GU | 2014A0193 | Q2 | Chemical Physics and General Science | Systematic studies on muonium productin in vacuum from structured silica aerogel | Tsutomu MIBE | High Energy Accelerator Research Organization Institute of Particle and Nuclear Studies | Japan | 4.00 |
| D2 | GU | 2014A0216 | Q2 | Chemical Physics and General Science | Nuclear weak/neutrino responses by measuring nuclear gamma rays from muon capture reactions | Akira SATO | Osaka University Physics | Japan | 2.00 |
| D2 | GU | 2014A0227 | Q2 | Chemical Physics and General Science | Study of negative muon deceleration using muonic transfer reactions in double layers of solid hydrogen and lithium or beryllium | Motonobu TAMPO | High Energy Accelerator Research Organization Institute of Material Structure Science Muion Scienece Division | Japan | 1.00 |
| D2 | GU | 2014A0229 | Q2 | Chemical Physics and General Science | Development of Silicon-strip detector for the muon g-2/EDM experiment at J-PARC | Tsutomu MIBE | High Energy Accelerator Research Organization Institute of Particle and Nuclear Studies | Japan | 2.00 |
| D2 | GU | 2014A0231 | Q2 | Chemical Physics and General Science | Muonium emission from surface treated tungsten | Yasuyuki NAGASHIMA | Tokyo University of Science Department of Physics | Japan | 4.00 |
| D2 | GU | 2014A0239 | Q2 | Chemical Physics and General Science | Development of a micro-cell MWPC for a experimental search for a muon-electron conversion | Hiroaki NATORI | High Energy Accelerator Research Organization Institute of Particle and Nuclear Studies | Japan | 3.00 |
| D2 | GU | 2014A0291 | Q2 | Chemical Physics and General Science | Observation of the inside of a lithium-ion battery by muonic x-ray | Izumi UMEZAKI | Toyota Central R&D Labs. Inc Materials Analysis & Evaluation Div. | Japan | 4.00 |