| BL No. | Access Mode | Proposal No. | Review field |
Title of experiment | Principal investigator | Affiliation | Location of the affiliation | Adopted BT day(s) |
|
|---|---|---|---|---|---|---|---|---|---|
| D1 | UU | 2015AUD101 | - | Hydrogen atom in nano-structures of diamond | Mark GORDON, Khashayar GHANDI, Federico ZAHARIEV | Iowa State University and Mount Allsion University | U.S,A and Canada | 2.00 | |
| D1 | GU | 2015A0018 | Q1 | Magnetic and Strongly Correlated Electronic Materials | Frustration of stacked antiferromagnetic chains in tetragonal spinel AMn2O4 (A = Zn, Mg) | Jae-Ho CHUNG | Korea Univ. KOREA Dept. of Physics | Korea | 2.00 |
| D1 | GU | 2015A0055 | Q2 | Chemical Physics and General Science | Challenge for detecting oxygen diffusion in solids with $\mu^+$SR | Jun SUGIYAMA | Toyota Central R&D Labs. Inc Frontier Research Center | Japan | 2.00 |
| D1 | GU | 2015A0094 | Q1 | Magnetic and Strongly Correlated Electronic Materials | Study of unconventional mechanism of non Fermi Liquid behavior in CeOBiS2 | Wataru HIGEMOTO | Japan Atomic Energy Agency Advance Science Research Center (Tokai) | Japan | 4.00 |
| D1 | GU | 2015A0101 | Q1 | Magnetic and Strongly Correlated Electronic Materials | Interplay between magnetism and superconductivity in ”Q-Phase” of
|
Wataru HIGEMOTO | Japan Atomic Energy Agency Advance Science Research Center (Tokai) | Japan | 2.00 |
| D1 | GU | 2015A0139 | Q2 | Chemical Physics and General Science | Charged state of hydrogen in TiO2 | Katsuyuki FUKUTANI | University of Tokyo Institute of Industrial Science | Japan | 2.00 |
| D1 | GU | 2015A0168 | Q1 | Magnetic and Strongly Correlated Electronic Materials | μSR study on frustrated quantum spin system (CuCl)La(Nb(1-x)Ta(x))2O7 | Seiko OHIRA-KAWAMURA | Japan Atomic Energy Agency J-PARC Center | Japan | 2.00 |
| D1 | GU | 2015A0192 | Q2 | Chemical Physics and General Science | Investigation of chemical environmental effect in muonic atom formation for low pressure gaseous molecules containing sulfur atoms. | Kazuhiko NINOMIYA | Osaka University Graduate School of Science | Japan | 2.00 |
| D1 | GU | 2015A0198 | Q1 | Magnetic and Strongly Correlated Electronic Materials | μSR study of the Fe-substitution effects on the possible ferromagnetic state in the non-superconducting heavily overdoped high-Tc cuprates | Tadashi ADACHI | Sophia University Department of Engineering and Applied Sciences, Faculty of Science and Technology | Japan | 2.00 |
| D1 | GU | 2015A0199 | Q1 | Magnetic and Strongly Correlated Electronic Materials | μSR study of Cu-spin fluctuations in the heavily overdoped T’-Pr1.3-xLa0.7CexCuO4+δ (x=0.15?0.25) single crystals | Tadashi ADACHI | Sophia University Department of Engineering and Applied Sciences, Faculty of Science and Technology | Japan | 2.00 |
| D1 | GU | 2015A0201 | Q2 | Chemical Physics and General Science | muSR STUDY OF HYDROGEN DYNAMICS IN NEW MULTIFERROIC COMPOUNDS CO2(OD)3CL AND CO2(OD)3BR USING SINGLE CRYSTALS | Xu-Guang ZHENG | Saga University Department of Physics | Japan | 2.00 |
| D1 | GU | 2015A0210 | Q1 | Magnetic and Strongly Correlated Electronic Materials | muSR investigation of 112-type iron arsenide superconductor | Kensuke SUZUKI | Tohoku University Institute for Materials Research | Japan | 2.00 |
| D1 | GU | 2015A0211 | Q2 | Chemical Physics and General Science | Muonium ionization in LaAlO3 | Takashi ITO | Japan Atomic Energy Agency Advance Science Research Center (Tokai) | Japan | 2.00 |
| D1 | GU | 2015A0219 | Q1 | Magnetic and Strongly Correlated Electronic Materials | muSR investigation of Fe-substituted effect on electron-doped cuprate superconductor | Kensuke SUZUKI | Tohoku University Institute for Materials Research | Japan | 2.00 |
| D1 | P-type | 2015A0220 | Q1 | Magnetic and Strongly Correlated Electronic Materials | Reinvestigation of the quasi-one-dimensional spin dynamics in LiV2O4 | Hirotaka OKABE | High Energy Accelerator Research Organization, KEK Muon Science Division, Institute of Materials Structure Science | Japan | 2.00 |
| D1 | GU | 2015A0231 | Q2 | Chemical Physics and General Science | Mechanism of hydrogen-induced vacancy formation in hydrogen storage alloys studied by muon | Mototsugu MIHARA | Osaka University Department of Physics, Graduate School of Science | Japan | 2.00 |
| D1 | GU | 2015A0235 | Q2 | Chemical Physics and General Science | Detecting oxygen vacancy in rutile TiO2 single crystal by muon spin rotation measurement | Hiroko ARIGA | Hokkaido University Catalysis Research Center | Japan | 2.00 |
| D1 | GU | 2015A0300 | Q1 | Magnetic and Strongly Correlated Electronic Materials | Magnetic ground state and spin dynamics of geometrically frustrated beta’-LiCoPO4 | Hirotaka OKABE | High Energy Accelerator Research Organization, KEK Muon Science Division, Institute of Materials Structure Science | Japan | 2.00 |
| D1 | GU | 2015A0314 | Q1 | Magnetic and Strongly Correlated Electronic Materials | Investigation of the magnetic ground state in the edge-sharing spin tetrahedra system K2Cu3O(SO4)3 | Masayoshi FUJIHARA | Tokyo University of Science Department of Physics, Faculty of Science | Japan | 2.00 |
| D1 | GU | 2014MS03 | S2-type | - | Development of polymer dynbamics probing method using magnetic marker | Soshi TAKESHITA | High Energy Accelerator Research Organization, KEK Muon Science Division, Institute of Materials Structure Science | Japan | 4.00 |
| D2 | GU | 2015A0309 | Q2 | Chemical Physics and General Science | Systematic studies of kr chamber and detectors for Mu-HFS measuremnets at J-PARC | Koichiro SHIMOMURA | IMSS KEK Muon Science Laboratory | Japan | 4.00 |
| D2 | GU | 2015A0010 | Q2 | Chemical Physics and General Science | Upgrade of a negative muon X-ray analysis system | Takahito OSAWA | Japan Atomic Energy Agency Quantum Beam Science Directorate | Japan | 3.00 |
| D2 | GU | 2015A0321 | Q2 | Chemical Physics and General Science | Test and optimize Michrochannel plate based low intensity muon beam profile monitoring system | BongHo KIM | Seoul National Univ. KOREA Dept. of Physics and Astronomy | Korea | 1.00 |
| D2 | GU | 2015A0106 | Q2 | Chemical Physics and General Science | Observition of Li in lithium-ion battery by muonic x-ray | Izumi UMEGAKI | Toyota Central R&D Labs. Inc Materials Analysis & Evaluation Div. | Japan | 3.00 |
| D2 | GU | 2015A0167 | Q2 | Chemical Physics and General Science | Development of a micro-cell MWPC for a muon-electron conversion search experiment at MLF H-line | Hiroaki NATORI | High Energy Accelerator Research Organization Institute of Particle and Nuclear Studies | Japan | 2.00 |
| D2 | GU | 2015A0237 | Q2 | Chemical Physics and General Science | Fundamental study for separation and detection of muonic atom by TOF-MS technique | Kazuhiko NINOMIYA | Osaka University Graduate School of Science | Japan | 2.00 |
| D2 | GU | 2015A0324 | Q2 | Chemical Physics and General Science | Measurement of low-energy negative muonium from metal foil | Masashi OTANI | High Energy Accelerator Research Organization Institute of Particle and Nuclear Studies | Japan | 1.00 |
| D2 | GU | 2015A0213 | Q2 | Chemical Physics and General Science | Development of a high resolution beam profile monitor for the ultra slow muon beam | Akira SATO | Osaka University Physics | Japan | 2.00 |
| D2 | GU | 2015A0221 | Q2 | Chemical Physics and General Science | Muonic X-ray measurement of mixed metal oxides for elemental analysis | Kenya KUBO | International Christian University Material Science | Japan | 2.00 |