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Books on the topic 'Spectroscopie à excitation de spin'

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Published: 3 February 2023

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1

Lʹvov, V. S. Wave turbulence under parametric excitation: Applications to magnets. Berlin: Springer-Verlag, 1994.

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2

L'vov, Victor S. Wave Turbulence Under Parametric Excitation: Applications to Magnets. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994.

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3

Hermann, Nann, and Workshop on Nuclear Structure at High Spin, Excitation, and Momentum Transfer (1985 : Indiana University), eds. Nuclear structure at high spin, excitation, and momentum transfer, Indiana University 1985. New York: American Institute of Physics, 1986.

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4

Exotic nuclear excitations. New York: Springer, 2011.

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5

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

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6

Wehrli, F. W. Interpretation of carbon-13 NMR spectra. 2nd ed. Chichester: Wiley, 1988.

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7

Nann. Nuclear Structure in High Spin, Excitation, and Momentum Transfer. American Institute of Physics, 1998.

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8

L'vov, Victor S., and Viktor Michailowitsch Brodjanskij. Wave Turbulence Under Parametric Excitation: Applications to Magnets. Springer, 2011.

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9

Fromme, Bärbel. D-D Excitations in Transition-Metal Oxides: A Spin-Polarized Electron Energy-Loss Spectroscopy Study. Springer, 2007.

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10

Boothroyd, Andrew T. Principles of Neutron Scattering from Condensed Matter. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198862314.001.0001.

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The book contains a comprehensive account of the theory and application of neutron scattering for the study of the structure and dynamics of condensed matter. All the principal experimental techniques available at national and international neutron scattering facilities are covered. The formal theory is presented, and used to show how neutron scattering measurements give direct access to a variety of correlation and response functions which characterize the equilibrium properties of bulk matter. The determination of atomic arrangements and magnetic structures by neutron diffraction and neutron optical methods is described, including single-crystal and powder diffraction, diffuse scattering from disordered structures, total scattering, small-angle scattering, reflectometry, and imaging. The principles behind the main neutron spectroscopic techniques are explained, including continuous and time-of-flight inelastic scattering, quasielastic scattering, spin-echo spectroscopy, and Compton scattering. The scattering cross-sections for atomic vibrations in solids, diffusive motion in atomic and molecular fluids, and single-atom and cooperative magnetic excitations are calculated. A detailed account of neutron polarization analysis is given, together with examples of how polarized neutrons can be exploited to obtain information about structural and magnetic correlations which cannot be obtained by other methods. Alongside the theoretical aspects, the book also describes the essential practical information needed to perform experiments and to analyse and interpret the data. Exercises are included at the end of each chapter to consolidate and enhance understanding of the material, and a summary of relevant results from mathematics, quantum mechanics, and linear response theory, is given in the appendices.
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11

Structure of Medium Mass Nuclei: Deformed Shell Model and Spin-Isospin Interacting Boson Model. Taylor & Francis Group, 2016.

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12

Sahu, R., and V. K. B. Kota. Structure of Medium Mass Nuclei: Deformed Shell Model and Spin-Isospin Interacting Boson Model. Taylor & Francis Group, 2016.

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13

Sahu, R., and V. K. B. Kota. Structure of Medium Mass Nuclei: Deformed Shell Model and Spin-Isospin Interacting Boson Model. Taylor & Francis Group, 2016.

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14

Sahu, R., and V. K. B. Kota. Structure of Medium Mass Nuclei: Deformed Shell Model and Spin-Isospin Interacting Boson Model. Taylor & Francis Group, 2016.

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15

Sahu, R., and V. K. B. Kota. Structure of Medium Mass Nuclei: Deformed Shell Model and Spin-Isospin Interacting Boson Model. Taylor & Francis Group, 2016.

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16

V, Brown Gerald, Mehmed Oral, and Lewis Research Center, eds. A magnetic suspension and excitation system for spin vibration testing of turbomachinery blades. [Cleveland, Ohio]: National Aeronautics and Space Administration, Lewis Research Center, 1998.

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17

d-d Excitations in Transition-Metal Oxides: A Spin-Polarized Electron Energy-Loss Spectroscopy (SPEELS) Study (Springer Tracts in Modern Physics). Springer, 2001.

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18

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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19

M, Costen, and United States. National Aeronautics and Space Administration., eds. Simulated bladed MMC disk LCF validation: Draft final report. [S.l.]: AlliedSignal Aerospace, 1998.

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20

M, Costen, and United States. National Aeronautics and Space Administration., eds. Simulated bladed MMC disk LCF validation: Draft final report. [S.l.]: AlliedSignal Aerospace, 1998.

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21

Box, Harold C. Radiation Effects: ESR and ENDOR Analysis. Elsevier Science & Technology Books, 2013.

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22

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

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23

Ansermet, J. Ph. Spintronics with metallic nanowires. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.3.

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This article focuses on spintronics with metallic nanowires. It begins with a review of the highlights of spintronics research, paying attention to the very important developments accomplished with tunnel junctions. It then considers the effect of current on magnetization before discussing spin diffusion and especially spin-dependent conductivities, spin-diffusion lengths, and spin accumulation. It also examines models for spin-polarized currents acting on magnetization, current-induced magnetization switching, and current-driven magnetic excitations. It concludes with an overview of resonant-current excitations, with emphasis on spin-valves and tunnel junctions as well as resonant excitation of spin-waves, domain walls and vortices. In addition, the article reflects on the future of spintronics, citing in particular the potential of the spin Hall effect as the method of generating spin accumulation, free of charge accumulation.
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24

Glazov, M. M. Strong Coupling of Electron and Nuclear Spins: Outlook and Prospects. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198807308.003.0011.

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In this chapter, some prospects in the field of electron and nuclear spin dynamics are outlined. Particular emphasis is put ona situation where the hyperfine interaction is so strong that it leads to a qualitative rearrangement of the energy spectrum resulting in the coherent excitation transfer between the electron and nucleus. The strong coupling between the spin of the charge carrier and of the nucleus is realized, for example 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 ordered state, formation at low enough temperatures of nuclear spins, where the orientation of the carrier spin results in alignment of the spins of nucleus interacting with the electron or hole.
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25

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

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26

Launay, Jean-Pierre, and Michel Verdaguer. The excited electron: photophysical properties. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198814597.003.0004.

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After a review of fundamental notions such as absorption, emission and the properties of excited states, the chapter introduces excited-state electron transfer. Several examples are given, using molecules to realize photodiodes, light emitting diodes, photovoltaic cells, and even harnessing photochemical energy for water photolysis. The specificities of ultrafast electron transfer are outlined. Energy transfer is then defined, starting from its theoretical description, and showing its involvement in photonic wires or molecular assemblies realizing an antenna effect for light harvesting. Photomagnetic effects; that is, the modification of magnetic properties after a photonic excitation, are then studied. The examples are taken from systems presenting a spin cross-over, with the LIESST effect, and from systems presenting metal–metal charge transfer, in particular in Prussian Blue analogues and their molecular version.
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27

Launay, Jean-Pierre, and Michel Verdaguer. Electrons in Molecules. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198814597.001.0001.

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The book treats in a unified way electronic properties of molecules (magnetic, electrical, photophysical), culminating with the mastering of electrons, i.e. molecular electronics and spintronics and molecular machines. Chapter 1 recalls basic concepts. Chapter 2 describes the magnetic properties due to localized electrons. This includes phenomena such as spin cross-over, exchange interaction from dihydrogen to extended molecular magnetic systems, and magnetic anisotropy with single-molecule magnets. Chapter 3 is devoted to the electrical properties due to moving electrons. One considers first electron transfer in discrete molecular systems, in particular in mixed valence compounds. Then, extended molecular solids, in particular molecular conductors, are described by band theory. Special attention is paid to structural distortions (Peierls instability) and interelectronic repulsions in narrow-band systems. Chapter 4 treats photophysical properties, mainly electron transfer in the excited state and its applications to photodiodes, organic light emitting diodes, photovoltaic cells and water photolysis. Energy transfer is also treated. Photomagnetism (how a photonic excitation modifies magnetic properties) is introduced. Finally, Chapter 5 combines the previous knowledge for three advanced subjects: first molecular electronics in its hybrid form (molecules connected to electrodes acting as wires, diodes, memory elements, field-effect transistors) or in the quantum computation approach. Then, molecular spintronics, using, besides the charge, the spin of the electron. Finally the theme of molecular machines is presented, with the problem of the directionality control of their motion.
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