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Libros sobre el tema "Electrical Transport Phenomena"

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Autor: Grafiati
Publicado: 7 de septiembre de 2023

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1

Electrokinetic and colloid transport phenomena. Hoboken, NJ: Wiley-Interscience, 2006.

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2

Masliyah, Jacob H. Electrokinetic and colloid transport phenomena. Hoboken, NJ: J. Wiley, 2006.

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3

Vladislav, Cápek, ed. Organic molecular crystals: Interaction, localization, and transport phenomena. New York: American Institute of Physics, 1994.

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4

Electron transport in nanostructures and mesoscopic devices. London, UK: ISTE ; Hoboken, NJ : Wiley, 2008.

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5

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

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6

Weiss, T. F. Cellular Biophysics, Vol. 2: Electrical Properties. The MIT Press, 1996.

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7

Aseyev, G. G. Electrolytes: Transport Phenomena, Calculation of Multicomponent Systems and Experimental Data on Electrical Conductivity. Begell House Publishers, 2000.

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8

Burton, J. D. y E. Y. Tsymbal. Magnetoresistive phenomena in nanoscale magnetic contacts. Editado por A. V. Narlikar y Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.013.18.

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This article examines magnetoresistive phenomena in nano- and atomic-size ferromagnetic metal contacts. In particular, it considers how magnetization affects the flow of electrical current in ferromagnetic materials by focusing on two major categories of magnetoresistive phenomena: the ‘spin-valve’, where the flow of spin-polarized electrical current is affected by an inhomogeneous magnetization profile, and anisotropic magnetoresistance (AMR), which involves the anisotropy of electrical transport properties with respect to the orientation of the magnetization. The article first provides an overview of ballistic transport and conductance quantization before discussing domain-wall magnetoresistance at the nanoscale. It also describes AMR in magnetic nanocontacts as well as tunnelling anisotropic magnetoresistance in broken contacts.
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9

Masliyah, Jacob H. y Subir Bhattacharjee. Electrokinetic and Colloid Transport Phenomena. Wiley & Sons, Incorporated, John, 2006.

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10

Masliyah, Jacob H. y Subir Bhattacharjee. Electrokinetic and Colloid Transport Phenomena. Wiley & Sons, Incorporated, John, 2008.

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11

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

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12

Ouisse, Thierry. Electron Transport in Nanostructures and Mesoscopic Devices: An Introduction. Wiley & Sons, Incorporated, John, 2010.

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13

Ouisse, Thierry. Electron Transport in Nanostructures and Mesoscopic Devices: An Introduction. Wiley & Sons, Incorporated, John, 2013.

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14

Ouisse, Thierry. Electron Transport in Nanostructures and Mesoscopic Devices: An Introduction. Wiley & Sons, Incorporated, John, 2013.

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15

Sergeenkov, Sergei. 2D arrays of Josephson nanocontacts and nanogranular superconductors. Editado por A. V. Narlikar y Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.013.21.

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This article examines many novel effects related to the magnetic, electric, elastic and transport properties of Josephson nanocontacts and nanogranular superconductors using a realistic model of two-dimensional Josephson junction arrays. The arrays were created by a 2D network of twin-boundary dislocations with strain fields acting as an insulating barrier between hole-rich domains in underdoped crystals. The article first describes a model of nanoscopic Josephson junction arrays before discussing some interesting phenomena, including chemomagnetism and magnetoelectricity, electric analog of the ‘fishtail‘ anomaly and field-tuned weakening of the chemically induced Coulomb blockade, a giant enhancement of the non-linear thermal conductivity in 2D arrays, and thermal expansion of a singleJosephson contact.
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16

Transport in Semiconductor Mesoscopic. IOP Publishing Ltd, 2016.

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17

Tiwari, Sandip. Phase transitions and their devices. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198759874.003.0004.

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Phase transitions as a collective response of an ensemble, with appearance of unique stable properties spontaneously, is critical to a variety of devices: electronic, magnetic, optical, and their coupled forms. This chapter starts with a discussion of broken symmetry and its manifestation in the property changes in thermodynamic phase transition and the Landau mean-field articulation. It then follows it with an exploration of different phenomena and their use in devices. The first is ferroelectricity—spontaneous electric polarization—and its use in ferroelectric memories. Electron correlation effects are explored, and then conductivity transition from electron-electron and electron-phonon coupling and its use in novel memory and device forms. This is followed by development of an understanding of spin correlations and interactions and magnetism—spontaneous magnetic polarization. The use and manipulation of the magnetic phase transition in disk drives, magnetic and spin-torque memory as well as their stability is explored. Finally, as a fourth example, amorphous-crystalline structural transition in optical, electronic, and optoelectronic form are analyzed. This latter’s application include disk drives and resistive memories in the form of phase-change as well as those with electochemical transport.
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