M
Masaki Takata
Researcher at Tohoku University
Publications - 598
Citations - 31366
Masaki Takata is an academic researcher from Tohoku University. The author has contributed to research in topics: Powder diffraction & Charge density. The author has an hindex of 90, co-authored 594 publications receiving 28478 citations. Previous affiliations of Masaki Takata include Shimane University & National Institute for Materials Science.
Papers
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On the Single-Pixel Approximation in Maximum-Entropy Analysis
TL;DR: In this paper, the authors examined the validity of the zeroth-order single-pixel approximation (ZSPA) by using a one-dimensional two-pixel model for which the exact solution can be analytically obtained.
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High-Pressure Structural Analysis of Fe3O4
Akira Kuriki,Yutaka Moritomo,Yasuo Ohishi,Kenichi Kato,Eiji Nishibori,Masaki Takata,Makoto Sakata,Noriaki Hamada,Sakae Todo,Nobuo Mori,Osamu Shimomura,Arao Nakamura +11 more
TL;DR: Dept. of Crystalline Materials Science at Nagoya University, Nagoya 464-8603 as mentioned in this paper, 1.1.1 Koto, Mikazuki-cho, Sayo-gun, Hyogo 679-5198
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High resolution electron microscopy of partial dislocations in the Laves phase structure
TL;DR: In this paper, a Mg-base Laves phase was investigated by high resolution electron microscopy (HREM), and linear defects found at terminations of stacking faults were classified into three groups.
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Electron Density Distribution of Wurtzite-Type Gallium Nitride by Maximum Entropy Method
Tomohiro Ikeda,Masaki Takata,Makoto Sakata,J. Waliszewski,Ludwik Dobrzyński,Sylwester Porowski,J. Jun +6 more
TL;DR: In this article, the electron density distribution of wurtzite-type gallium nitride (w-GaN) was obtained by the Maximum Entropy Method (MEM) using the Synchrotron Radiation powder data.
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Analysis of the photomagnetic properties of cyano-bridged heterobimetallic complexes by X-ray diffraction.
Helle Svendsen,Mads R. V. Jørgensen,Jacob Overgaard,Yu-Sheng Chen,Guillaume Chastanet,Jean François Létard,Kenichi Kato,Masaki Takata,Bo B. Iversen +8 more
TL;DR: Photomagnetic measurements show an increase in magnetization of the excited state of 1 of up to 3%, which is much diminished compared with previously published values of 45% and shows that the photomagnetic effect requires the presence of both the transition metal and the lanthanide ion.