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Books on the topic 'Atomic defect'

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Published: 9 March 2023
Last updated: 10 March 2023

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1

K, De Groh Kim, and NASA Glenn Research Center, eds. The dependence of atomic oxygen undercutting of protected polyimide Kapton® H upon defect size. [Cleveland, Ohio]: National Aeronautics and Space Administration, Glenn Research Center, 2001.

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2

Snyder, Aaron. The dependence of atomic oxygen undercutting of protected polyimide Kapton® H upon defect size. [Cleveland, Ohio]: National Aeronautics and Space Administration, Glenn Research Center, 2001.

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3

Ullmaier, H., ed. Atomic Defects in Metals. Berlin/Heidelberg: Springer-Verlag, 1991. http://dx.doi.org/10.1007/b37800.

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4

Frank-Kamenetskaya, O. V. Atomic defects and crystal structure of minerals. Edited by Rozhdestvenskaya, I. V. (Ira V.) and Frank-Kamenet︠s︡kiĭ V. A. 2nd ed. Saint Petersburg: Yanus, 2004.

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5

Dongchuan, Wu, Old Dominion University. Research Foundation., and Langley Research Center, eds. Hyperthermal atomic oxygen generator. Norfolk, Va: Old Dominion University Research Foundation, 1990.

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6

Janot, Christian, Winfried Petry, Dieter Richter, and Tasso Springer, eds. Atomic Transport and Defects in Metals by Neutron Scattering. Berlin, Heidelberg: Springer Berlin Heidelberg, 1986. http://dx.doi.org/10.1007/978-3-642-71007-0.

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7

The most controversial decision: Truman, the atomic bombs, and the defeat of Japan. Cambridge: Cambridge University Press, 2011.

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8

Great Britain. Advisory Committee on the Safety of Nuclear Installations. An examination of the CEGB's R6 procedure for the assessment of the integrity of structures containing defects. London: H.M.S.O., 1989.

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9

Defects and diffusion studied using PAC spectroscopy: Special topic volume with invited peer reviewed papers only. Zurich-Durnten, Switzerland: Trans Tech Publications, 2011.

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10

Rutledge, Sharon K. Undercutting of defects in thin film protective coatings on polymer surfaces exposed to atomic oxygen. [Washington, DC: National Aeronautics and Space Administration, 1989.

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11

Mazenko, Gene F. Fluctuations, order, and defects. New York, NY: J. Wiley, 2003.

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12

Kerelsky, Alexander. Atomic-scale Spectroscopic Structure of Tunable Flat Bands, Magnetic Defects and Heterointerfaces in Two-dimensional Systems. [New York, N.Y.?]: [publisher not identified], 2020.

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13

Spaeth, Johann-Martin. Point Defects in Semiconductors and Insulators: Determination of Atomic and Electronic Structure from Paramagnetic Hyperfine Interactions. Berlin, Heidelberg: Springer Berlin Heidelberg, 2003.

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14

A, Borghesi, and Symposium G on Atomic Scale Characterization and Simulation of Materials and Processes (1995 : Strasbourg, France), eds. C,H,N and O in Si and characterization and simulation of materials and processes: Proceedings of Symposium N on Carbon, Hydrogen, Nitrogen and Oxygen in Silicon and other Elemental Semiconductors, and Symposium G on Atomic Scale Characterization and Simulation of Materials and Processes of the 1995 E-MRS Spring Conference, Strasbourg, France, May 22-26, 1995. Amsterdam: Elsevier, 1996.

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15

Janot, C. Atomic Transport and Defects in Metals by Neutron Scattering: Proceedings of an IFF-ILL Workshop Jülich, Fed. Rep. of Germany, October 2-4, 1985. Berlin, Heidelberg: Springer Berlin Heidelberg, 1986.

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16

Great Britain. Parliament. House of Commons. Secretary of State for Foreign and Commonwealth Affairs. Amendment to the agreement between the government of the United Kingdom of Great Britain and Northern Ireland and the government of the United States of America for cooperation on the uses of atomic energy for mutual defence purposes, Washington, 14 June2004. London: Stationery Office, 2004.

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17

Great Britain. Parliament. House of Commons. Secretary of State for Foreign and Commonwealth Affairs. Amendment to the agreement between the government of the United Kingdom of Great Britain and Northern Ireland and the government of the United States of America for cooperation on the uses of atomic energy for mutual defence purposes, Washington, 14 june2004. London: Stationery Office, 2005.

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18

International Symposium "Sarcophagus Safety '94" (1994 Zelenyĭ Mys, Chornobylʹ, Ukraine). "Sarcophagus Safety '94": The state of the Chernobyl Nuclear Power Plant Unit 4 : proceedings of an International Symposium, Zeleny Mys, Chernobyl, Ukraine, 14-18 March 1994. Paris: Nuclear Energy Agency, Organisation for Economic Co-Operation and Development, 1995.

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19

Chemistry, Royal Society of. Atomic Transport and Defect Phenomena in Solids: Faraday Discussions No 134. Royal Society of Chemistry, The, 2007.

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20

Leveling coatings for reducing the atomic oxygen defect density in protected graphite fiber epoxy composites. [Washington, DC: National Aeronautics and Space Administration, 1992.

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21

Khait, Y. L., and Yu L. Khait. Kinetics and Applications of Atomic Diffusion in Solids: Nanoscopic Electron-Affected Stochastic Dynamics (Diffusion and Defect Data,). Scitec Publications, 1997.

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22

al, et, and C. Janot. Atomic Transport and Defect in Metals by Neutron Scattering: Proceedings of an IFF-ILL Workshop Julich, Fed. Rep. of Germany, October 2-4, 1985. Springer-Verlag Berlin and Heidelberg GmbH & Co. KG, 1986.

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23

Graupner, R., and F. Hauke. Functionalization of single-walled carbon nanotubes: Chemistry and characterization. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.013.16.

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This article examines the chemical functionalization and structural alteration of single-walled carbon nanotubes (SWCNTs). It describes the covalent functionalization of the SWCNT framework that is the covalent attachment of functional entities onto the CNT scaffold. In particular, it considers the chemical modification and reactivity of SWCNTs in the context of the reactivity of graphite and fullerenes. It also discusses the defect and sidewall functionalization of SWCNTs, along with various techniques used in the characterization ofSWCNTs upon functionalization, namely: thermogravimetric analysis, spectroscopic techniques such as UV-Vis-NIR spectroscopy and Raman spectroscopy, and microscopic techniques like transmission electron microscopy, atomic force microscopy and scanning tunnelling microscopy.
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24

Gupta, D., H. Jain, and R. W. Siegel. Atomic Migration and Defects in Materials. Trans Tech Publications, Limited, 1991.

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25

Monson, Tyrus K. An examination of point defects and atomic diffusion in silicon. 1995.

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26

Why are buckyonions round? [Washington, DC: National Aeronautics and Space Administration, 1997.

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27

Sutton, Adrian P. Physics of Elasticity and Crystal Defects. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198860785.001.0001.

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Mechanical properties of crystalline materials are almost always dominated by the defects within them. The ability to shape metals into pipes, girders and furniture stems from the generation, motion and interaction of these defects. Defects are also the agents of chemical changes within crystals, enabling mass transport by atomic diffusion and changes of phase. Defects distort the crystal and these distortions enable defects to interact over large distances. The theory of elasticity is used to describe these interactions. Assuming no familiarity with the theory, this book introduces the reader to linear elasticity and its application to point defects, dislocations and cracks. A unique feature of the book is the attention given to the atomic structure of defects and its influence on their properties and their elastic fields. Where it is available brief biographical information is provided about prominent contributors to the field. This textbook is written for postgraduate students in physics, engineering and materials science. It is very likely that even those students with some knowledge of elasticity and defects will find much that is new to them in this book.There are exercises to help the student check their understanding as they work through each chapter. The student is guided through more advanced problems at the end of each chapter. Worked solutions to all exercises and problems are available to course instructors from the OUP website. The last chapter describes four technologically important areas requiring fundamental research, with suggestions for possible PhD projects.
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28

Sutton, Adrian P. Concepts of Materials Science. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780192846839.001.0001.

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This short book describes ten fundamental concepts – big ideas – of materials science. Some of them come from mainstream physics and chemistry, including thermodynamic stability and phase diagrams, symmetry, and quantum behaviour. Others are about restless atomic motion and thermal fluctuations, defects in crystalline materials as the agents of change in materials, nanoscience and nanotechnology, materials design and materials discovery, metamaterials, and biological matter as a material. A cornerstone of materials science is the idea that materials are complex systems that interact with their environments and display the emergence of new science from the collective behaviour of atoms and defects. Great attention is paid to the clarity of explanations using only high school algebra and quoting the occasional useful formula. Exceptionally, elementary calculus is used in the chapter on metamaterials. It is not a text-book, but it offers undergraduates and their teachers a unique overview and insight into materials science. It may also help graduates of other subjects to decide whether to study materials science at postgraduate level.
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29

Collins, Philip G. Defects and disorder in carbon nanotubes. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.2.

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This article examines the physical consequences of defects and disorder in carbon nanotubes (CNTs). It begins with a pedagogical categorization of the types of defects and disorder found in CNTs, including lattice vacancies and bond rotations, and goes on to discuss considers two primary sources of disorder: the environment surrounding a CNT and the substrate supporting it. It then considers various experimental methods for locating defects in CNTs, including atomic-resolution scanning tunnelling microscopy, transmission electron microscopy, electrochemical and chemoselective labelling, optical spectroscopy, and electrical conductance. The article concludes with a review of the long-range consequences of defects and disorder on the physical properties of CNTs such as chemical reactivity, electrical transport, and mechanical effects.
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30

Gupta. Atomic Migration and Defects in Materials: Proceedings of the Asm Symposium. Scitec Pubns, 1991.

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31

Jaeger, Herbert, and Matthew O. Zacate. Defects and Diffusion Studied Using PAC Spectroscopy. Trans Tech Publications, Limited, 2011.

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32

Miscamble, Wilson D. Most Controversial Decision: Truman, the Atomic Bombs, and the Defeat of Japan. Cambridge University Press, 2012.

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33

Miscamble, Wilson D. Most Controversial Decision: Truman, the Atomic Bombs, and the Defeat of Japan. Cambridge University Press, 2011.

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34

Miscamble, Wilson D. Most Controversial Decision: Truman, the Atomic Bombs, and the Defeat of Japan. Cambridge University Press, 2011.

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35

Grinolds, Michael Sean. Nanoscale magnetic resonance imaging and magnetic sensing using atomic defects in diamond. 2014.

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36

Miscamble, Wilson D. Most Controversial Decision: Truman, the Atomic Bombs, and the Defeat of Japan. Cambridge University Press, 2011.

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37

Yoshida, Yutaka, and Guido Langouche. Defects and Impurities in Silicon Materials: An Introduction to Atomic-Level Silicon Engineering. Springer, 2016.

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38

Yoshida, Yutaka, and Guido Langouche. Defects and Impurities in Silicon Materials: An Introduction to Atomic-Level Silicon Engineering. Springer London, Limited, 2016.

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39

Andriotis, A. N., R. M. Sheetz, E. Richter, and M. Menon. Structural, electronic, magnetic, and transport properties of carbon-fullerene-based polymers. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.21.

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This article discusses the structural, electronic, magnetic, and transport properties of carbon-fullerene-based polymers. In particular, it examines the defect-induced ferromagnetism of the C60-based polymers and its analog in the case of non-traditional inorganic materials. It first reviews the computational methods currently used in the literature, highlighting the pros and cons of each one of them. It then considers the defects associated with the ferromagnetism of the C60-based polymers, namely carbon vacancies, the 2 + 2 cycloaddition bonds and impurity atoms, and their effect on the electronic structure. It also evaluates the effect of codoping and goes on to describe the electronic, magnetic and transport properties of the rhombohedral C60-polymer. Finally, it looks at the origin of magnetic coupling among the magnetic moments in the rhombohedral C60-polymer and provides further evidence for the analogy between the magnetism of the rhombohedral C60-polymer and zinc oxide.
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40

Mazenko, Gene F., and Gene Mazenko. Fluctuations Order & Defects. Wiley-Interscience, 2002.

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41

Atomic Thunder: The Maralinga Story. NewSouth Publishing, 2016.

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42

(Contributor), P. Ehrhart, P. Jung (Contributor), H. Schultz (Contributor), and H. Ullmaier (Contributor Editor), eds. Atomic Defects in Metals / Atomare Fehlstellen in Metallen (Numerical Data & Functional Relationships in Science & Technology). Springer, 1991.

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43

Overhof, Harald, Hans-Joachim Queisser, and Johann-Martin Spaeth. Point Defects in Semiconductors and Insulators: Determination of Atomic and Electronic Structure from Paramagnetic Hyperfine Interactions. Springer, 2012.

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44

Tynan, Elizabeth. Atomic Thunder: British Nuclear Testing in Australia. Pen & Sword Books Limited, 2018.

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45

Tynan, Elizabeth. Atomic Thunder: British Nuclear Testing in Australia. Pen & Sword Books Limited, 2018.

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46

Tynan, Elizabeth. Atomic Thunder: British Nuclear Testing in Australia. Pen & Sword Books Limited, 2018.

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47

Tynan, Elizabeth. Atomic Thunder: British Nuclear Testing in Australia. Pen & Sword Books Limited, 2018.

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48

Fernandez-Serra, M. V., and X. Blase. Electronic and transport properties of doped silicon nanowires. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.013.2.

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This article describes a number of theoretical works and methods dedicated to the analysis of the atomic and electronic structure, doping properties and transport characteristics of silicon nanowires (SiNWs). The goal is to show how quantum confinement and dimensionality effects can intrinsically change the behavior of SiNWs as compared to their bulk and thin film counterparts. The article begins with a review of work done on surface reconstructions and electronic structure of SiNWs as a function of system doping and passivation. It then considers the problem of doping in SiNWs as well as the methodology typically used to analyze the problems of transport. It also discusses the electronic transport properties of SiNWs as a function of dopant type, along with their chemical functionalization. Finally, it demonstrates how surface dangling-bond defects trap the impurities in SiNWs and neutralize them.
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49

Final technical report on protein crystal growth in low gravity ... June 1, 1992 through May 31, 1994. Stanford, Calif: Center for Materials Research, Stanford University, 1994.

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50

1936-, Janot C., Institut Laue-Langevin, and Kernforschungsanlage Jülich. Institut für Festkörperforschung., eds. Atomic transport and defects in metals by neutron scattering: Proceedings of an IFF-ILL workshop, Jülich, Fed. Rep. of Germany, October 2-4, 1985. Berlin: Springer-Verlag, 1986.

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