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Livros sobre o tema "Transport and localization"

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Autor: Grafiati
Publicado: 22 de junho de 2024

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1

Kramer, Bernhard, Gerd Bergmann e Yvan Bruynseraede, eds. Localization, Interaction, and Transport Phenomena. Berlin, Heidelberg: Springer Berlin Heidelberg, 1985. http://dx.doi.org/10.1007/978-3-642-82516-3.

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2

M, Soukoulis C., North Atlantic Treaty Organization. Scientific Affairs Division. e NATO Advanced Research Workshop on Localization and Propagation of Classical Waves in Random and Periodic Structures (1992 : Hagia Pelagia, Greece), eds. Photonic band gaps and localization. New York: Plenum Press, 1993.

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3

Silin̦š, E. Organic molecular crystals: Interaction, localization, and transport phenomena. New York: American Institute of Physics, 1994.

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4

Siliņš, E. Organic molecular crystals: Interaction,localization, and transport phenomena. New York: American Institute of Physics, 1994.

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5

NATO Advanced Research Workshop on Localization and Propagation of Classical Wavesin Random and Periodic Structures (1992 Aghia Pelaghia, Greece). Photonic band gaps and localization. New York: Plenum Press, 1993.

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6

Wan, Shibiao. Machine learning for protein subcellular localization prediction. Boston: De Gruyter, 2015.

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7

1942-, Kramer B., Bergmann G. 1938-, Bruynseraede Y. 1938- e International Conference on Localization, Interaction, and Transport Phenomena in Impure Metals (1984 : Braunschweig, Germany), eds. Localization, interaction, and transport phenomena: Proceedings of the International Conference, August 23-28, 1984, Braunschweig, Fed. Rep. of Germany. Berlin: Springer-Verlag, 1985.

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8

Kramer, Bernhard. Localization, Interaction, and Transport Phenomena: Proceedings of the International Conference, August 23-28, 1984 Braunschweig, Fed. Rep. of Germany. Berlin, Heidelberg: Springer Berlin Heidelberg, 1985.

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9

Lopatin, Anatoli, e Colin G. Nichols. Ion Channel Localization. Humana Press, 2010.

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10

Soukoulis, C. M. Photonic Band Gaps and Localization. Springer London, Limited, 2013.

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11

Soukoulis, C. M. Photonic Band Gaps and Localization. Springer, 2014.

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12

Silinsh, Edgar A., e Vladislav Capek. Organic Molecular Crystals: Interacton Localization, and Transport Phenomena. American Institute of Physics, 1997.

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13

Richter, Dietmar. Cell Polarity and Subcellular RNA Localization (Results and Problems in Cell Differentiation). Springer, 2001.

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14

Narlikar, A. V., e Y. Y. Fu, eds. Oxford Handbook of Nanoscience and Technology. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.001.0001.

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This Handbook consolidates some of the major scientific and technological achievements in different aspects of the field of nanoscience and technology. It consists of theoretical papers, many of which are linked with current and future nanodevices, molecular-based materials and junctions (including Josephson nanocontacts). Self-organization of nanoparticles, atomic chains, and nanostructures at surfaces are further described in detail. Topics include: a unified view of nanoelectronic devices; electronic and transport properties of doped silicon nanowires; quasi-ballistic electron transport in atomic wires; thermal transport of small systems; patterns and pathways in nanoparticle self-organization; nanotribology; and the electronic structure of epitaxial graphene. The volume also explores quantum-theoretical approaches to proteins and nucleic acids; magnetoresistive phenomena in nanoscale magnetic contacts; novel superconducting states in nanoscale superconductors; left-handed metamaterials; correlated electron transport in molecular junctions; spin currents in semiconductor nanostructures; and disorder-induced electron localization in molecular-based materials.
15

Schomerus, Henning. Random matrix approaches to open quantum systems. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198797319.003.0010.

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Over the past decades, a great body of theoretical and mathematical work has been devoted to random-matrix descriptions of open quantum systems. This chapter reviews the physical origins and mathematical structures of the underlying models, and collects key predictions which give insight into the typical system behaviour. In particular, the aim is to give an idea how the different features are interlinked. The chapter mainly focuses on elastic scattering but also includes a short detour to interacting systems, which are motivated by the overarching question of ergodicity. The first sections introduce general notions from random matrix theory, such as the 10 universality classes and ensembles of Hermitian, unitary, positive-definite, and non-Hermitian matrices. The following sections then review microscopic scattering models that form the basis for statistical descriptions, and consider signatures of random scattering in decay, dynamics, and transport. The last section touches on Anderson localization and localization in interacting systems.
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