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Philosophical Magazine A Volume 49, 1984 - Issue 3
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Original Articles

In situ TEM observation of dislocation motion in II–VI compounds

K. Suzuki Institute for Solid State Physics, University of Tokyo, Minato-ku, Tokyo, 106, Japan
,
M. Ichihara Institute for Solid State Physics, University of Tokyo, Minato-ku, Tokyo, 106, Japan
,
S. Takeuchi Institute for Solid State Physics, University of Tokyo, Minato-ku, Tokyo, 106, Japan
,
K. Nakagawa Institute for Solid State Physics, University of Tokyo, Minato-ku, Tokyo, 106, Japan
,
K. Maeda Institute for Solid State Physics, University of Tokyo, Minato-ku, Tokyo, 106, Japan
&
H. Iwanaga Faculty of Liberal Arts, Nagasaki University, Nagasaki, 852, Japan
Pages 451-461 | Received 14 Jun 1983, Accepted 21 Sep 1983, Published online: 13 Sep 2006

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A. Faress, C. Levade & G. Vanderschaeve. (1993) TEM in situ investigation of dislocation mobility in II-VI semiconductor compound ZnS cathodoplastic effect and the Peierls mechanism. Philosophical Magazine A 68:1, pages 97-112.
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S. Takeuchi, A. Tomizuka & H. Iwanaga. (1988) Deformation mechanism and photoplastic effects in CuBr single crystals. Philosophical Magazine A 57:5, pages 767-778.
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M. Fnaiech, F. Reynaud, A. Couret & D. Caillard. (1987) A TEM in situ study of dislocation glide in a III-V compound (InSb). Philosophical Magazine A 55:4, pages 405-423.
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Yu.A. Osip'yan, V.F. Petrenko, A.V. Zaretskiĭ & R.W. Whitworth. (1986) Properties of II–VI semiconductors associated with moving dislocations. Advances in Physics 35:2, pages 115-188.
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Eckhard Nembach, K. Suzuki, M. Ichihara & S. Takeuchi. (1985) In situ deformation of the γ' hardened superalloy Nimonic PE16 in high-voltage electron microscopes. Philosophical Magazine A 51:4, pages 607-618.
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Articles from other publishers (19)

Joerg R. Jinschek, Stig Helveg, Lawrence F. Allard, Jennifer A. Dionne, Yuanyuan Zhu & Peter A. Crozier. (2024) Quantitative gas-phase transmission electron microscopy: Where are we now and what comes next?. MRS Bulletin 49:2, pages 174-183.
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Huili Zhang, Qiannan Gao & Xiaozhi Wu. (2024) Theoretical investigation on fundamental properties of glide partial in CdTe based on lattice theory of dislocation. Ain Shams Engineering Journal 15:1, pages 102291.
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Jun Li, Kun Luo & Qi An. (2023) Atomic structure, stability, and dissociation of dislocations in cadmium telluride. International Journal of Plasticity 163, pages 103552.
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Ke Fang, Wentao Yuan, Jakob B. Wagner, Ze Zhang & Yong Wang. 2023. In-Situ Transmission Electron Microscopy. In-Situ Transmission Electron Microscopy 251 325 .
Peng Wang, Feng Xu, Peng Gao, Songhua Cai & Xuedong Bai. 2023. In-Situ Transmission Electron Microscopy. In-Situ Transmission Electron Microscopy 151 186 .
Litao Sun, Tao Xu & Ze Zhang. 2023. In-Situ Transmission Electron Microscopy. In-Situ Transmission Electron Microscopy 1 15 .
Andrzej M. Żak. (2022) Light-Induced In Situ Transmission Electron Microscopy─Development, Challenges, and Perspectives. Nano Letters 22:23, pages 9219-9226.
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Yuchen Zhu, Haofei Zhao, Yang He & Rongming Wang. (2021) In-situ transmission electron microscopy for probing the dynamic processes in materials. Journal of Physics D: Applied Physics 54:44, pages 443002.
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Chang Liu, Chaojie Ma, Jinjing Xu, Ruixi Qiao, Huacong Sun, Xiaomin Li, Zhi Xu, Peng Gao, Enge Wang, Kaihui Liu & Xuedong Bai. (2021) Development of in situ optical spectroscopy with high temporal resolution in an aberration-corrected transmission electron microscope . Review of Scientific Instruments 92:1.
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Joseph F. S. Fernando, Chao Zhang, Konstantin L. Firestein & Dmitri Golberg. (2017) Optical and Optoelectronic Property Analysis of Nanomaterials inside Transmission Electron Microscope. Small 13:45.
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Jinyan Du, Xiawei Dong, Shujuan Zhuo, Weili Shen, Lilin Sun & Changqing Zhu. (2014) Eu(III)-induced room-temperature fast transformation of CdTe nanocrystals into nanorods. Talanta 122, pages 229-233.
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Chen Li, Jonathan Poplawsky, Yelong Wu, Andrew R. Lupini, Anas Mouti, Donovan N. Leonard, Naba Paudel, Kim Jones, Wanjian Yin, Mowafak Al-Jassim, Yanfa Yan & Stephen J. Pennycook. (2013) From atomic structure to photovoltaic properties in CdTe solar cells. Ultramicroscopy 134, pages 113-125.
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N Burle, F Baudin, A Jonchere, P Gergaud & G Feuillet. (2011) Characterisation of Dislocations in ZnO by X –Ray Imaging. Journal of Physics: Conference Series 281, pages 012004.
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B. Wolf, A. Belger, D.C. Meyer & P. Paufler. (2001) On the Impact of Light on Nanoindentations in ZnSe. physica status solidi (a) 187:2, pages 415-426.
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A.B. Trigubo, C. Lac-Prugent, L.V. Pérez & N.E.Walsöe de Reca. (1996) Statistical evaluation of subgrain size growth in Hg1 − xCdxTe (MCT). Materials Research Bulletin 31:6, pages 723-729.
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K. Shintani. (1993) Line tension and configuration of a dislocation on the basal, prismatic, and pyramidal planes in zinc oxide. Physical Review B 47:12, pages 7032-7035.
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V. D. Negrii, Yu. A. Osipyan & N. V. Lomak. (1991) Dislocation Structure and Motion in CdS Crystals. Physica Status Solidi (a) 126:1, pages 49-61.
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Taira Suzuki, Shin Takeuchi & Hideo YoshinagaTaira Suzuki, Shin Takeuchi & Hideo Yoshinaga. 1991. Dislocation Dynamics and Plasticity. Dislocation Dynamics and Plasticity 99 119 .
E. Nadgornyi. (1988) Dislocation dynamics and mechanical properties of crystals. Progress in Materials Science 31, pages 1-530.
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