Takeshi Nishimatsu
Takeshi Nishimatsu
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Cited by
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Codoping method for the fabrication of low-resistivity wide band-gap semiconductors in p-type GaN, p-type AlN and n-type diamond: prediction versus experiment
H Katayama-Yoshida, T Nishimatsu, T Yamamoto, N Orita
Journal of Physics: Condensed Matter 13 (40), 8901, 2001
Band structures of perovskite-like fluorides for vacuum-ultraviolet-transparent lens materials
T Nishimatsu, N Terakubo, H Mizuseki, Y Kawazoe, DA Pawlak, ...
Japanese journal of applied physics 41 (4A), L365, 2002
Fast molecular-dynamics simulation for ferroelectric thin-film capacitors using a first-principles effective Hamiltonian
T Nishimatsu, UV Waghmare, Y Kawazoe, D Vanderbilt
Physical Review B 78 (10), 104104, 2008
Ferroelectric phase transitions in ultrathin films of BaTiO 3
J Paul, T Nishimatsu, Y Kawazoe, UV Waghmare
Physical review letters 99 (7), 077601, 2007
First-principles accurate total energy surfaces for polar structural distortions of BaTiO 3, PbTiO 3, and SrTiO 3: Consequences for structural transition temperatures
T Nishimatsu, M Iwamoto, Y Kawazoe, UV Waghmare
Physical Review B 82 (13), 134106, 2010
First-principles-based calculation of the electrocaloric effect in BaTiO 3: A comparison of direct and indirect methods
M Marathe, A Grünebohm, T Nishimatsu, P Entel, C Ederer
Physical Review B 93 (5), 054110, 2016
Influence of defects on ferroelectric and electrocaloric properties of BaTiO 3
A Grünebohm, T Nishimatsu
Physical Review B 93 (13), 134101, 2016
Proposed design principle of fluoride-based materials for deep ultraviolet light emitting devices
N Sarukura, H Murakami, E Estacio, S Ono, R El Ouenzerfi, M Cadatal, ...
Optical Materials 30 (1), 15-17, 2007
Katayama-Yoshida. H., and Fiorita, N
T Nishimatsu
Jpn. J. Appl. Phys. Part I 41, 1952-1962, 2002
Comparison between the Theoretical Prediction of Codoping and the Recent Experimental Evidences in p‐Type GaN, AlN, ZnSe, CuInS2 and n‐Type Diamond
H Katayama‐Yoshida, H Katayama‐Yoshida, T Nishimatsu, T Yamamoto, ...
physica status solidi (b) 210 (2), 429-436, 1998
Effective Hamiltonian methods for predicting the electrocaloric behavior of BaTiO3
SP Beckman, LF Wan, JA Barr, T Nishimatsu
Materials Letters 89, 254-257, 2012
Theoretical study of hydrogen-related complexes in diamond for low-resistive n-type diamond semiconductor
T Nishimatsu, H Katayama-Yoshida, N Orita
Physica B: Condensed Matter 302, 149-154, 2001
The structural, dielectric, elastic, and piezoelectric properties of KNbO3 from first-principles methods
LF Wan, T Nishimatsu, SP Beckman
Journal of Applied Physics 111 (10), 104107, 2012
Polarization rotation, switching, and electric-field–temperature phase diagrams of ferroelectric BaTiO 3: A molecular dynamics study
J Paul, T Nishimatsu, Y Kawazoe, UV Waghmare
Physical Review B 80 (2), 024107, 2009
Direct molecular dynamics simulation of electrocaloric effect in BaTiO3
T Nishimatsu, J A. Barr, S P. Beckman
Journal of the Physical Society of Japan 82 (11), 114605, 2013
Crystal structures and phase stability in pseudobinary CaAl2− xZnx
K Söderberg, M Boström, Y Kubota, T Nishimatsu, R Niewa, ...
Journal of Solid State Chemistry 179 (8), 2690-2697, 2006
Design of wide-gap fluoride heterostructures for deep ultraviolet optical devices
R El Ouenzerfi, S Ono, A Quema, M Goto, M Sakai, N Sarukura, ...
Journal of applied physics 96 (12), 7655-7659, 2004
Design proposal of light emitting diode in vacuum ultraviolet based on Perovskite-like fluoride crystals
REL Ouenzerfi, S Ono, A Quema, M Goto, N Sarukura, T Nishimatsu, ...
Japanese journal of applied physics 43 (9A), L1140, 2004
First principles phase diagram calculations for the system : Can spinodal decomposition generate relaxor ferroelectricity?
BP Burton, T Nishimatsu
Applied physics letters 91 (9), 092907, 2007
Band-structure design of fluoride complex materials for deep-ultraviolet light-emitting diodes
S Ono, R El Ouenzerfi, A Quema, H Murakami, N Sarukura, T Nishimatsu, ...
Japanese journal of applied physics 44 (10R), 7285, 2005
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