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Libros sobre el tema "Muon Spin Relaxation spectroscopy"

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Publicado: 10 de marzo de 2023

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1

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

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2

Muon spin rotation spectroscopy: Principles and applications in solid state physics. A. Hilger, 1985.

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3

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

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4

Gong, Zizhou. Muon Spin Relaxation Study of MnGe and Development of Pair Distribution Function Methods. [publisher not identified], 2018.

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5

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

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6

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

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7

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

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8

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

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9

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

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10

Singh, Jag J. Nuclear techniques in studies of condensed matter. National Aeronautics and Space Administration, Scientific and Technical Information Division, 1988.

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11

Singh, Jag J. Nuclear techniques in studies of condensed matter. National Aeronautics and Space Administration, Scientific and Technical Information Division, 1987.

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12

Singh, Jag J. Nuclear techniques in studies of condensed matter. National Aeronautics and Space Administration, Scientific and Technical Information Division, 1988.

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13

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

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14

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. Hartung-Gorre Verlag Konstanz, 1995.

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15

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. North-Holland, 2000.

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16

Biomolecular NMR spectroscopy: Application to the study of the piRNA-pathway protein GTSF1, and backbone and side-chain spin relaxation methods development. [publisher not identified], 2019.

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17

Spectroscopic techniques and hindered molecular motion. CRC Press, 2012.

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18

Pietro, Carretta, and Lascialfari Alessandra, eds. NMR-MRI, þSR and Mössbauer spectroscopies in molecular magnets. Springer, 2007.

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19

Blundell, Stephen J., Roberto De Renzi, Tom Lancaster, and Francis L. Pratt, eds. Muon Spectroscopy. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780198858959.001.0001.

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Muons, radioactive particles produced in accelerators, have emerged as an important tool to study problems in condensed matter physics and chemistry. Beams of muons with all their spins polarized can be prepared and implanted in various types of sample. The subsequent precession and relaxation of the spins of these particles can used to investigate a variety of static and dynamic effects in a sample and hence to deduce properties concerning magnetism, superconductivity, molecular or chemical dynamics, and many other properties. The technique was originally the preserve of a few specialists located in particle physics laboratories. Today it is used by scientists from a very wide range of science backgrounds and interests. This book describes the principles behind this technique, discusses various practical aspects necessary for performing experiments, and outlines the different areas of science to which muon spectroscopy can be usefully applied.
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20

Fleming, Donald G., Paul W. Percival, and Iain McKenzie. Muon Spin Spectroscopy in Chemistry. Wiley-VCH Verlag GmbH, 2020.

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21

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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22

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

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23

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

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24

Kruk, Danuta. Understanding Spin Dynamics. Jenny Stanford Publishing, 2015.

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25

Kruk, Danuta. Understanding Spin Dynamics. Jenny Stanford Publishing, 2015.

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26

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

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27

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

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28

Bashirov, Ferid. Spectroscopic Techniques and Hindered Molecular Motion. Taylor & Francis Group, 2011.

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29

Bashirov, Ferid. Spectroscopic Techniques and Hindered Molecular Motion. Taylor & Francis Group, 2011.

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30

Bashirov, Ferid. Spectroscopic Techniques and Hindered Molecular Motion. Taylor & Francis Group, 2011.

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31

Bashirov, Ferid. Spectroscopic Techniques and Hindered Molecular Motion. Taylor & Francis Group, 2019.

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32

(Editor), Pietro Carretta, and Alessandro Lascialfari (Editor), eds. NMR-MRI, µSR and Mössbauer Spectroscopies in Molecular Magnets. Springer, 2007.

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33

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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34

Mørup, Steen, Cathrine Frandsen, and Mikkel F. Hansen. Magnetic properties of nanoparticles. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.20.

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This article discusses the magnetic properties of nanoparticles. It first considers magnetic domains and the critical size for single-domain behavior of magnetic nanoparticles before providing an overview of magnetic anisotropy in nanoparticles. It then examines magnetic dynamics in nanoparticles, with particular emphasis on superparamagnetic relaxation and the use of Mössbauer spectroscopy, dc magnetization measurements, and ac susceptibility measurements for studies of superparamagnetic relaxation. It also describes magnetic dynamics below the blocking temperature, magnetic interactions between nanoparticles, and fluctuations of the magnetization directions. Finally, it analyzes the magnetic structure of nanoparticles, focusing on magnetic phase transitions and surface effects, non-collinear spin structures, and magnetic moments of antiferromagnetic nanoparticles.
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35

Nitzan, Abraham. Chemical Dynamics in Condensed Phases. Oxford University Press, 2006. http://dx.doi.org/10.1093/oso/9780198529798.001.0001.

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This text provides a uniform and consistent approach to diversified problems encountered in the study of dynamical processes in condensed phase molecular systems. Given the broad interdisciplinary aspect of this subject, the book focuses on three themes: coverage of needed background material, in-depth introduction of methodologies, and analysis of several key applications. The uniform approach and common language used in all discussions help to develop general understanding and insight on condensed phases chemical dynamics. The applications discussed are among the most fundamental processes that underlie physical, chemical and biological phenomena in complex systems. The first part of the book starts with a general review of basic mathematical and physical methods (Chapter 1) and a few introductory chapters on quantum dynamics (Chapter 2), interaction of radiation and matter (Chapter 3) and basic properties of solids (chapter 4) and liquids (Chapter 5). In the second part the text embarks on a broad coverage of the main methodological approaches. The central role of classical and quantum time correlation functions is emphasized in Chapter 6. The presentation of dynamical phenomena in complex systems as stochastic processes is discussed in Chapters 7 and 8. The basic theory of quantum relaxation phenomena is developed in Chapter 9, and carried on in Chapter 10 which introduces the density operator, its quantum evolution in Liouville space, and the concept of reduced equation of motions. The methodological part concludes with a discussion of linear response theory in Chapter 11, and of the spin-boson model in chapter 12. The third part of the book applies the methodologies introduced earlier to several fundamental processes that underlie much of the dynamical behaviour of condensed phase molecular systems. Vibrational relaxation and vibrational energy transfer (Chapter 13), Barrier crossing and diffusion controlled reactions (Chapter 14), solvation dynamics (Chapter 15), electron transfer in bulk solvents (Chapter 16) and at electrodes/electrolyte and metal/molecule/metal junctions (Chapter 17), and several processes pertaining to molecular spectroscopy in condensed phases (Chapter 18) are the main subjects discussed in this part.
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