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Books on the topic 'Relaxation paramagnétique du spin'

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Published: 4 June 2021
Last updated: 17 February 2022

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1

Lenk, R. Fluctuations, diffusion, and spin relaxation. Amsterdam: Elsevier, 1986.

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2

Yeung, Race R. Nuclear spin relaxation and morphology of solid polyolefins. Norwich: University of East Anglia, 1985.

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3

Lena, Mäler, ed. Nuclear spin relaxation in liquids: Theory, experiments, and applications. Boca Raton, FL: Taylor&Francis, 2006.

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4

Kowalewski, Jozef. Nuclear spin relaxation in liquids: Theory, experiments, and applications. Boca Raton, FL: Taylor & Francis, 2006.

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5

Dalmas, De Réotier Pierre, ed. Muon spin rotation, relaxation, and resonance: Applications to condensed matter. Oxford: Oxford University Press, 2010.

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6

Poole, Charles P. Electron spin resonance: A comprehensive treatise on experimental techniques. Mineola, N.Y: Dover Publications, 1996.

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7

Strutz, Thomas. High magnetic field electron spin-lattice relaxation in a diluted magnetic semiconductor: CdMnTe. Konstanz: Hartung-Gorre Verlag, 1991.

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8

W, E. Heraeus Seminar (165th 1996 Bad Honnef Germany). Theory of spin lattices and lattice gauge models: Proceedings of the 165th WE-Heraeus-Seminar held at the Physikzentrum, Bad Honnef, Germany, 14-16 October 1996. Berlin: Springer-Verlag, 1997.

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9

Wu, Jie Qiang. Spin relaxation mechanisms controlling magnetic-field dependent radical pair recombination kinetics in nanoscopic reactors. Konstanz: Hartung-Gorre Verlag, 1993.

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10

Free radicals: Biology and detection by spin trapping. New York: Oxford University Press, 1999.

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11

NATO Advanced Research Workshop on Relaxation in Complex Systems and Related Topics (1989 Turin, Italy). Relaxation in complex systems and related topics. New York: Plenum Press, 1990.

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12

Kutter, Christoph. Pulsed electron paramagnetic resonance in high magnetic fields using far infrared lasers. Konstanz: Hartung-Gorre, 1995.

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13

Latanowicz, Lidia. Procesy magnetycznej relaksacji jądrowej w obecności fluktuacji części radialnej oddziaływania dipolowego. Poznań: Wydawn. Nauk. Uniwersytetu im. Adama Mickiewicza w Poznaniu, 1988.

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14

Suchański, Wiesław. Analiza wewnątrzmolekularnych ruchów stochastycznych: Badania za pomocą magnetycznej relaksacji jądrowej ¹³C. Poznań: Wydawn. Nauk. Uniwersytetu im. Adama Mickiewicza w Poznaniu, 1993.

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15

Kutter, Christopher. Pulsed electron paramagnetic resonance in high magnetic fields using far infrared lasers: Dissertation zur Erlangung des akademischen Grades des Docktors der Naturwissenschaften an der Universität Konstanz Fakultät für Physik. Konstanz: Hartung-Gorre Verlag Konstanz, 1995.

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16

International, Conference on Muon Spin Rotation Relaxation and Resonance (8th 1999 Les Diablerets Switzerland). Proceedings of the Eighth International Conference on Muon Spin Rotation, Relaxation and Resonance, [mu]SR '99, held in Les Diablerets, Switzerland, 30 August-3 September 1999. Amsterdam: North-Holland, 2000.

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17

Spectroscopic techniques and hindered molecular motion. Boca Raton: CRC Press, 2012.

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18

Gelman, Neil. 19F nuclear spin-spin relaxation in bone mineral. 1988.

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19

Electron Spin Relaxation in Irradiated Solids. Storming Media, 1996.

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20

Glazov, M. M. Electron Spin Relaxation Beyond the Hyperfine Interaction. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198807308.003.0008.

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Here, some prospects for future studies in the field of electron and nuclear spin dynamics are outlined. In contrast to previous chapters where the electron interaction with multitude of nuclei was discussed, in Chapter 8 particular emphasis is put on a situation where hyperfine interaction is so strong that it leads to a qualitative rear rangement of the energy spectrum resulting in coherent excitation transfer between electron and nucleus. The strong coupling between the spin of the charge carrier and of the nucleus is realized; e.g., in the case of deep impurity centers in semiconductors or in isotopically purified systems. We also discuss the effect of the nuclear spin polaron; that is, the ordered state, where the carrier spin orientation results in alignment of spins of the nucleus interacting with the electron or hole. Such problems have been briefly discussed in the literature but, in our opinion, call for in-depth investigation.
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21

BoRovik-Romanov. Spin Super-Current and Magnetic Relaxation in Helium-3. Routledge, 1990.

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22

Raith, Martin. Theory of Spin Relaxation in Laterally Coupled Quantum Dots. Universitatsverlag Regensburg GmbH, 2013.

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23

Kruk, Danuta. Theory of Evolution and Relaxation in Multi-Spin Systems. abramis, 2007.

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24

P, Poole Charles, and Farach Horacio A, eds. Handbook of electron spin resonance. New York: AIP Press/Springer, 1999.

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25

Nuclear Spin Relaxation in Liquids: Theory, Experiments, and Applications, Second Edition. Taylor & Francis Group, 2017.

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26

Wagner, Robert Simon. Proton and deuteron spin relaxation in hydrogen-deuteride helium gas mixtures. 1989.

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27

Farach, Horacio A., and Charles P. Jr Poole. Handbook of Electron Spin Resonance: Volume 2. Springer, 2012.

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28

Charles P. Jr. Poole (Editor) and Horacio A. Farach (Editor), eds. Handbook of Electron Spin Resonance: Vol. 2. American Institute of Physics, 1999.

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29

Handbook of Electron Spin Resonance: Data Sources, Computer Technology, Relaxation, and Endor. AIP Press, 1994.

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30

P, Poole Charles, and Farach Horacio A, eds. Handbook of electron spin resonance: Data sources, computer technology, relaxation, and ENDOR. New York: American Institute of Physics, 1994.

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31

Kavokin, Alexey V., Jeremy J. Baumberg, Guillaume Malpuech, and Fabrice P. Laussy. Spin and polarisation. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198782995.003.0009.

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In this chapter we consider a complex set of optical phenomena linked to the spin dynamics of exciton-polaritons in semiconductor microcavities. We review a few important experiments that reveal the main mechanisms of the exciton-polariton spin dynamics and present the theoretical model of polariton spin relaxation based on the density matrix formalism. We also discuss the polarisation properties of the condensate and the superfluid phase transitions for polarised exciton-polaritons. We briefly address the polarization multistability and switching in polariton lasers. Finally, the optical spin-Hall and spin-Meissner effects are described.
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32

Glazov, M. M. Electron Spin Decoherence by Nuclei. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198807308.003.0007.

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The discussion of the electron spin decoherence and relaxation phenomena via the hyperfine interaction with host lattice spins is presented here. The spin relaxation processes processes limit the conservation time of spin states as well as the response time of the spin system to external perturbations. The central spin model, where the spin of charge carrier interacts with the bath of nuclear spins, is formulated. We also present different methods to calculate the spin dynamics within this model. Simple but physically transparent semiclassical treatment where the nuclear spins are considered as largely static classical magnetic moments is followed by more advanced quantum mechanical approach where the feedback of electron spin dynamics on the nuclei is taken into account. The chapter concludes with an overview of experimental data and its comparison with model calculations.
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33

Poole, Charles P. Electron Spin Resonance: A Comprehensive Treatise on Experimental Techniques/Second Edition. 2nd ed. Dover Publications, 1997.

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34

Petrovich, Zakharcheni͡a︡ Boris, and Meier F. 1943-, eds. Opticheskai͡a︡ orientat͡s︡ii͡a︡. Leningrad: "Nauka," Leningradskoe otd-nie, 1989.

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35

Theory of Spin Lattices and Lattice Gauge Models: Proceedings of the 165th We-Heraeus-Seminar Held at the Physikzentrum Bad Honnef, Germany, 14-16 October 1996 (Lecture Notes in Physics). Springer, 1997.

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36

Sankari, Hassan M. Application of the NMR spin-lattice relaxation method to the structure of pigment systems. 1994.

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37

1939-, Ohya-Nishiguchi H., and Packer Lester, eds. Bioradicals detected by ESR spectroscopy. Basel: Birkhäuser, 1995.

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38

Ram, Kossowsky, and North Atlantic Treaty Organization. Scientific Affairs Division., eds. Physics and materials science of vortex states, flux pinning and dynamics. Dordrecht: Kluwer, 1999.

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39

Ram, Kossowsky, North Atlantic Treaty Organization. Scientific Affairs Division., and NATO Advanced Study Institute on Physics and Materials Science of Vortex States, Flux Pinning and Dynamics (1998 : Kusadasi, Turkey), eds. Physics and materials science of vortex states, flux pinning and dynamics. Dordrecht: Kluwer, 1999.

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40

(Editor), R. Kossowsky, Shyamalendu Bose (Editor), Vladimir Pan (Editor), and Zafer Durusoy (Editor), eds. Physics and Materials Science of Vortex States, Flux Pinning and Dynamics (NATO Science Series E:). Springer, 1999.

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41

Meintjes, Ernesta M. Impurity NMR study of heavily phosphorus-dopes silicon. 1998.

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42

(Editor), I. A. Campbell, and Carlo Giovannella (Editor), eds. Relaxation in Complex Systems and Related Topics (NATO Science Series: B:). Springer, 1990.

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43

Tauskela, Joseph S. ©ℓ rp spin-lattice relaxation NMR spectroscopic studies of phosphatidylcholine vesicular bilayers and their interaction with concanavalin A. 1989.

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44

Glazov, M. M. Electron & Nuclear Spin Dynamics in Semiconductor Nanostructures. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198807308.001.0001.

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In recent years, the physics community has experienced a revival of interest in spin effects in solid state systems. On one hand, solid state systems, particularly semicon- ductors and semiconductor nanosystems, allow one to perform benchtop studies of quantum and relativistic phenomena. On the other hand, interest is supported by the prospects of realizing spin-based electronics where the electron or nuclear spins can play a role of quantum or classical information carriers. This book aims at rather detailed presentation of multifaceted physics of interacting electron and nuclear spins in semiconductors and, particularly, in semiconductor-based low-dimensional structures. The hyperfine interaction of the charge carrier and nuclear spins increases in nanosystems compared with bulk materials due to localization of electrons and holes and results in the spin exchange between these two systems. It gives rise to beautiful and complex physics occurring in the manybody and nonlinear system of electrons and nuclei in semiconductor nanosystems. As a result, an understanding of the intertwined spin systems of electrons and nuclei is crucial for in-depth studying and control of spin phenomena in semiconductors. The book addresses a number of the most prominent effects taking place in semiconductor nanosystems including hyperfine interaction, nuclear magnetic resonance, dynamical nuclear polarization, spin-Faraday and -Kerr effects, processes of electron spin decoherence and relaxation, effects of electron spin precession mode-locking and frequency focusing, as well as fluctuations of electron and nuclear spins.
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45

M, Semenova N., ed. Metastabilʹnye fazovye sostoi͡a︡nii͡a︡ i kinetika relaksat͡s︡ii: Sbornik nauchnykh trudov. Ekaterinburg: In-t teplofiziki UrO RAN, 1992.

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46

Glazov, M. M. Fluctuations of Electron and Nuclear Spins. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198807308.003.0010.

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In thermal equilibrium, both electron and nuclear spin systems are unpolarized on average, but characterized by nonzero fluctuations. These fluctuations are inevitable due to the quantum-mechanical nature of spin. The physics of spin fluctuations in electron and nucelar systems is studied in this chapter. The intensity and dynamics of these inevitable stochastic fluctuations of spins contain information on spin relaxation and decoherence times, spin precession period, and interactions in spin systems. The theory of spin fluctuations in semiconductor nanosystems as well as experimental advances in the field of spin noise spectroscopy are reviewed. Specific situations where the spin noise spectroscopy can be particularly useful for spin dynamics studies are discussed, the analysis of recent progress in the field of nonequlibrium spin fluctuations is also presented.
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47

Golizadeh-Mojarad, Roksana, and Supriyo Datta. NEGF-based models for dephasing in quantum transport. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.013.3.

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This article describes the use of NEGF-based models for elastic dephasing in quantum transport. The non-equilibrium Green's function (NEGF) method provides a rigorous prescription for including any kind of dephasing mechanisms to any order starting from a microscopic Hamiltonian through an appropriate choice of the self-energy function. The article first introduces the general approach to quantum transport that provides a general method for modelling a wide class of nanotransistor and spin devices. It then discusses the effect of different types of dephasing on momentum and spin relaxation before considering three simple phenomenological choices of the self-energy function that allows one to incorporate spin, phase and momentum relaxation independently. It also looks at an example that takes into account these three types of dephasing mechanisms: the ‘spin-Hall’ effect.
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48

Rhodes, Chris J. Toxicology of the Human Environment. CRC, 2000.

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49

J, Rhodes Christopher, ed. Toxicology of the human environment: The critical role of free radicals. London: Taylor & Francis, 2000.

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50

Glazov, M. M. Introduction. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198807308.003.0001.

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Creation, detection, and manipulation of spin degrees of freedom of electrons and nuclei, phenomena of spin relaxation, decoherence and dephasing, and processes of spin transfer between different subsystems are among the most important problems studied in semiconductor spintronics. These effects are most pronounced in systems with localized charge carriers, such as semiconductor quantum dots. This chapter contains the motivation behind and a brief review of the material presented in the book. It also clarifies the logic of the presentation in further chapters. Chapter 1 may be helpful to readers willing to find appropriate material without going through the whole book, as it contains a concise overview of the other chapters.
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