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Journal Articles

Neutron powder diffraction and difference maximum entropy method analysis of protium- and deuterium-dissolved BaSn$$_{0.5}$$In$$_{0.5}$$O$$_{2.75+alpha}$$

Nagasaki, Takanori*; Shiotani, Shinya*; Igawa, Naoki; Yoshino, Masahito*; Iwasaki, Kota*; Fukazawa, Hiroshi; Utsumi, Wataru

Journal of Solid State Chemistry, 182(10), p.2632 - 2639, 2009/10

https://doi.org/10.1016/j.jssc.2009.06.024
 Times Cited Count:7 Percentile:26.58(Chemistry, Inorganic & Nuclear)

We propose a new method, a difference maximum entropy method (MEM) analysis of the neutron diffraction data, for revealing the detailed structure around hydrogen atoms in proton-conducting oxides. This MEM analysis uses the differences between the structure factors of protium- and deuterium-dissolved crystals. Simulations demonstrate that it not only provides the distribution of hydrogen atoms alone, but also improves the spatial resolution of MEM mapping around hydrogen atoms. Applied to actual diffraction data of protium- and deuterium-dissolved BaSn$$_{0.5}$$In$$_{0.5}$$O$$_{2.75+alpha}$$ at 9 K, difference MEM analysis reveals that O-D bonds mostly tilt towards the second nearest oxygen atoms, and that the distributions of deuterium and oxygen atoms are probably insignificant in interstitial regions.

Journal Articles

Energy spectra of electrons induced by MeV atom clusters

Kudo, Hiroshi*; Iwasaki, Wataru*; Uchiyama, Rumi*; Tomita, Shigeo*; Shima, Kunihiro*; Sasa, Kimikazu*; Ishii, Satoshi*; Narumi, Kazumasa; Naramoto, Hiroshi; Saito, Yuichi; et al.

Japanese Journal of Applied Physics, Part 2, 45(22), p.L565 - L568, 2006/06

https://doi.org/10.1143/JJAP.45.L565
 Times Cited Count:16 Percentile:50.56(Physics, Applied)

The first observation of the energy distribution of electrons emitted from solids bombarded by MeV atom clusters is reported. In the backward direction, using graphite and Si bombarded by C$$_{n}$$$$^{+}$$ and Al$$_{n}$$$$^{+}$$ (n $$leq$$ 8), an appreciable suppression of electron emission has been observed at electron energies lower than $$sim$$10 eV. Electron yield per atom decreases with increasing n, and becomes less than 50% at n $$geq$$ 3, relative to the case of n = 1. The experimental results cannot be explained in terms of projectile stopping cross sections nor by the clearing-the-way effect. It is probable that the suppressed electron emission is a result of the suppression of the transport or surface transmission of the produced low-energy electrons, rather than of the suppression of ionization.

Journal Articles

Status of J-PARC muon science facility at the year of 2005

Miyake, Yasuhiro*; Nishiyama, Kusuo*; Kawamura, Naritoshi*; Makimura, Shunsuke*; Strasser, P.*; Shimomura, Koichiro*; Beveridge, J. L.*; Kadono, Ryosuke*; Fukuchi, Koichi*; Sato, Nobuhiko*; et al.

Physica B; Condensed Matter, 374-375, p.484 - 487, 2006/03

https://doi.org/10.1016/j.physb.2005.11.136
 Times Cited Count:6 Percentile:31.27(Physics, Condensed Matter)

The construction of the Materials and Life Science building was started in the beginning of the fiscal year of 2004. After commissioning of the accelerator and beam transport sections in 2008, muon beams will be available for users in 2009. In this letter, the latest construction status of the J-PARC Muon Science Facility is reported.

Journal Articles

J-PARC muon science facility with use of 3GeV proton beam

Miyake, Yasuhiro*; Kawamura, Naritoshi*; Makimura, Shunsuke*; Strasser, P.*; Shimomura, Koichiro*; Nishiyama, Kusuo*; Beveridge, J. L.*; Kadono, Ryosuke*; Sato, Nobuhiko*; Fukuchi, Koichi*; et al.

Nuclear Physics B; Proceedings Supplements, 149, p.393 - 395, 2005/12

The J-PARC muon science experimental area is planned to be located in the integrated building of the facility for materials and life science study. One muon target will be installed upstream of the neutron target. The main feature of the facility is introduced.

Journal Articles

Electron emission from solids by fast cluster impact

Kudo, Hiroshi*; Iwasaki, Wataru*; Suguri, Takuya*; Saito, Yuichi; Yamamoto, Shunya; Narumi, Kazumasa; Naramoto, Hiroshi

JAERI-Review 2002-035, TIARA Annual Report 2001, p.214 - 216, 2002/11

no abstracts in English

Oral presentation

Neutron powder diffraction and difference MEM analysis of D$$_{2}$$O- and H$$_{2}$$O-dissolved Ba(Sn,In)O$$_{3}$$ proton conductors, 1; Theoretical basis and spatial resolution of difference MEM analysis

Nagasaki, Takanori*; Shiotani, Shinya*; Igawa, Naoki; Iwasaki, Kota*; Yoshino, Masahito*; Fukazawa, Hiroshi; Utsumi, Wataru

no journal, , 

We propose a new method, a difference maximum entropy method (MEM) analysis of the neutron diffraction data, for revealing the detailed structure around hydrogen atoms in proton-conducting oxides. This MEM analysis uses the difference between the structure factors of D$$_{2}$$O- and H$$_{2}$$O- dissolved crystals. Simulation for Ba(Sn,In)O$$_{3}$$ -D$$_{2}$$O/H$$_{2}$$O demonstrate that it not only provides the distribution of hydrogen atoms alone, but also improves the spatial resolution of MEM mapping around hydrogen atoms.

Oral presentation

Neutron powder diffraction and difference MEM analysis of D$$_{2}$$O- and H$$_{2}$$O-dissolved Ba(Sn,In)O$$_{3}$$ proton conductors, 2; Application to actual data and its evaluation

Shiotani, Shinya*; Nagasaki, Takanori*; Igawa, Naoki; Iwasaki, Kota*; Yoshino, Masahito*; Fukazawa, Hiroshi; Utsumi, Wataru

no journal, , 

A difference maximum entropy method (MEM) analysis was applied to actual neutron powder diffraction data of D$$_{2}$$O- and H$$_{2}$$O- dissolved Ba(Sn,In)O$$_{3}$$. It was found that a difference MEM analysis provided to be effective to improve the spatial resolution of MEM mapping for the structure around hydrogen atoms.

7 (Records 1-7 displayed on this page)
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