MITOSERIU Liliana | Department of Electricity and Magnetism, Faculty of Physics, Al. l. Cuza University
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概要
関連著者
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MITOSERIU Liliana
Department of Electricity and Magnetism, Faculty of Physics, Al. l. Cuza University
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Mitoseriu Liliana
Department Of Electricity Al. I. Cuza University:dlchep University Of Genoa
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OKUYAMA Masanori
Department of Electrical Engineering, Facully of Engineering Science, Osaka University
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Okuyama Masanori
Department Of Electrical Engineering Faculty Of Engineering Schience Osaka University
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Okuyama Masanori
Faculty Of Engineering Science Osaka University
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Okuyama M
Osaka Univ. Osaka Jpn
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TURA Vasile
Department of Electricity and Magnetism, Faculty of Physics, Al. l. Cuza University
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Tura Vasile
Department Of Electricity And Magnetism Faculty Of Physics Al. L. Cuza University
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Mitoseriu L
Al. I. Cuza Univ. Iasi Rom
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Tsukamoto Takeyo
Department Of Applied Physics Faculty Of Science Science University Of Tokyo
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HARNAGEA Catalin
Electricity and Magnetism Department, Faculty of Physics, Al. I. Cuza University
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RICINSCHI Dan
Department of Electricity and Magnetism, Faculty of Physics, Al. I. Cuza University
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Tsukamoto T
Department Of Applied Physics Tokyo University Of Science
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Tsukamoto T
Toshiba Corp. Kawasaki Jpn
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Ricinschi D
Division Of Advanced Electronics And Optical Science Department Of System Innovation Graduate School
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Ricinschi Dan
Department Of Electricity And Electronics Iasi Faculty Of Physics " Al. I. Cuza" Universit
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Harnagea C
Max‐planck‐inst. Mikrostrukturphysik Halle/saale Deu
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TSUKAMOTO Takeyo
Department of Applied Physics, Tokyo University of Science
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OSAKA Toshio
Department of Applied Physics, Faculty of Science, Science University of Tokyo
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Osaka Toshio
Department Of Applied Physics Faculty Of Science Science University Of Tokyo
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Tsukamoto Takeyo
Applied Physics Department Faculty Of Science Science University Of Tokyo
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PAPUSOI Constantin
Department of Electricity and Magnetism, Faculty of Physics, Al. l. Cuza University
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TURA Vasile
Electricity and Magnetism Department, Faculty of Physics, Al. I. Cuza University
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RICINSCHI Dan
Electricity and Magnetism Department, Faculty of Physics, Al. I. Cuza University
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MITOSERIU Liliana
Electricity and Magnetism Department, Faculty of Physics, Al. I. Cuza University
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ANDO Shizutoshi
Applied Physics Department, Faculty of Science, Science University of Tokyo
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HARNAGEA Catalin
Department of Electricity and Magnetism, Faculty of Physics, Al. I. Cuza University
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Mitoseriu Liliana
Department Of Electricity And Electronics Iasi Faculty Of Physics " Al. I. Cuza" Universit
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VILARINHO PaulaM.
Department of Ceramics and Gloss Engineering-UIMC, University of Aveiro
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BAPTISTA Joao
Department of Ceramics and Gloss Engineering-UIMC, University of Aveiro
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VIVIANI Massimo
IENI-GNR, Via de Marini
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FEDOR Cristina
Department of Electricity and Electronics Iasi, Faculty of Physics, " Al. I. Cuza" University
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NANNI Paolo
DICheP, University of Genoa
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Nanni Paolo
Dichep University Of Genoa
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Baptista Joao
Department Of Ceramics And Gloss Engineering-uimc University Of Aveiro
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Fedor Cristina
Department Of Electricity And Electronics Iasi Faculty Of Physics " Al. I. Cuza" Universit
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Viviani Massimo
Ieni-gnr Via De Marini
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Vilarinho Paulam.
Department Of Ceramics And Gloss Engineering-uimc University Of Aveiro
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Ando Shizutoshi
Applied Physics Department Faculty Of Science Science University Of Tokyo
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Papusoi Constantin
Department Of Electricity And Magnetism Faculty Of Physics Al. L. Cuza University
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Vilarinho Paula
Department of Ceramics and Gloss Engineering-UIMC, University of Aveiro
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Viviani Massimo
IENI-CNR, Via de Marini 6, Genova, I-16149, Italy
著作論文
- Investigation of Grain-Size Influence on the Ferroelectric-to-Paraelectric Phase Transition in BaTiO_3 Ceramics by Means of AC Calorimetry
- Simulation of Switching Properties of Ferroelectrics on the Basis of Dipole Lattice Model
- Grain Size Dependence of Switching Properties of Ferroelectric BaTiO_3 Ceramics
- Properties of PbFe_W_O_3-PbTiO_3 System in the Range of Morphotropic Phase Boundary
- Simulation of Positive Temperature Coefficient of Resistivity (PTCR) Behaviour in n-Doped BaTiO_3 Ceramics