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Books on the topic 'Antiferromagnet'

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Published: 4 June 2021
Last updated: 7 July 2024

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1

Binek, Christian. Ising-type Antiferromagnets. Berlin, Heidelberg: Springer Berlin Heidelberg, 2003. http://dx.doi.org/10.1007/b10726.

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2

Dalla Piazza, Bastien. Excitation Spectra of Square Lattice Antiferromagnets. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-26419-6.

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3

Eremenko, V. V., Yu G. Litvinenko, N. K. Kharchenko, and V. M. Naumenko. Magneto-Optics and Spectroscopy of Antiferromagnets. New York, NY: Springer New York, 1992. http://dx.doi.org/10.1007/978-1-4612-2846-2.

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4

V, Eremenko V., ed. Magneto-optics and spectroscopy of antiferromagnets. New York: Springer-Verlag, 1992.

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5

Eremenko, V. V. Magneto-Optics and Spectroscopy of Antiferromagnets. New York, NY: Springer New York, 1992.

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6

Eremenko, V. V. Magnetic and magnetoelastic properties of antiferromagnets and superconductors. [Cambridge, U.K.]: Cambridge Scientific Publishers, 2007.

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7

Siddle, David Robin. The role of impurities in frustrated Heisenberg antiferromagnets. Birmingham: University of Birmingham, 1997.

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8

Gakkai, Nihon Jiki, ed. Han kyōjiseitai: Ōyō e no tenkai = Antiferromagnetic materials. Tōkyō-to Bunkyō-ku: Kyōritsu Shuppan, 2014.

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9

Pearce, Adrian Simon. Domains, phase coexistence and extinction phenomena in helical and modulated antiferromagnets. [s.l.]: typescript, 1991.

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10

Magnetic properties of antiferromagnetic oxide materials: Surfaces, interfaces, and thin films. Weinheim: Wiley-VCH, 2010.

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11

Asante, Kofi A. Study of the 3-leg antiferromagnetic ladder using the bond-mean-field theory. Sudbury, Ont: Laurentian University, School of Graduate Studies, 2004.

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12

Shahin, Khalada. Study of the spin-phonon coupling in the antiferromagnetic Heisenberg three-leg ladder. Sudbury, Ont: Laurentian University, School of Graduate Studies, 2007.

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13

Bouillot, Pierre. Statics and Dynamics of Weakly Coupled Antiferromagnetic Spin-1/2 Ladders in a Magnetic Field. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013.

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14

Bouillot, Pierre. Statics and Dynamics of Weakly Coupled Antiferromagnetic Spin-1/2 Ladders in a Magnetic Field. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-33808-3.

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15

Staples, I. Application of the coupled cluster method to the two dimensional triangular lattice frustrated spin-1/2 system with an antiferromagnetic Heisenberg Hamiltonian. Manchester: UMIST, 1994.

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16

Bird, C. Erica. Magnetic ground state of the 2D S=1/2 square antiferromagnet copper formate tetrahydrate. 2002.

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17

Hirohata, Atsufumi, ed. Advances in Antiferromagnetic Spintronics. MDPI, 2022. http://dx.doi.org/10.3390/books978-3-0365-3750-4.

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18

Duò, Lamberto, Marco Finazzi, and Franco Ciccacci, eds. Magnetic Properties of Antiferromagnetic Oxide Materials. Wiley, 2010. http://dx.doi.org/10.1002/9783527630370.

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19

Kot-Yuzhanskii. An Experimental Study of Quasi-Particles in Antiferromagnetic Materials. Routledge, 1990.

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20

Piazza, Bastien Dalla. Excitation Spectra of Square Lattice Antiferromagnets: Theoretical Explanation of Experimental Observations. Springer London, Limited, 2016.

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21

Piazza, Bastien Dalla. Excitation Spectra of Square Lattice Antiferromagnets: Theoretical Explanation of Experimental Observations. Springer, 2018.

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22

Piazza, Bastien Dalla. Excitation Spectra of Square Lattice Antiferromagnets: Theoretical Explanation of Experimental Observations. Springer, 2016.

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23

Osterman, David Peter. A SQUID magnetometer study of uniaxially-stressed antiferromagnets DySb and GdSb. 1986.

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24

Duò, Lamberto, Marco Finazzi, and Franco Ciccacci. Magnetic Properties of Antiferromagnetic Oxide Materials: Surfaces, Interfaces, and Thin Films. Wiley & Sons, Incorporated, John, 2010.

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25

Hsü, Chien-sheng. FMR study on the antiferromagnetic interlayer coupling of Fe/Cu multilayers. 1991.

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26

Duò, Lamberto, Marco Finazzi, and Franco Ciccacci. Magnetic Properties of Antiferromagnetic Oxide Materials: Surfaces, Interfaces, and Thin Films. Wiley & Sons, Limited, John, 2010.

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27

Binek, Christian. Ising-Type Antiferromagnets: Model Systems in Statistical Physics and in the Magnetism of Exchange Bias. Springer Berlin / Heidelberg, 2010.

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28

Bouillot, Pierre. Statics and Dynamics of Weakly Coupled Antiferromagnetic Spin-1/2 Ladders in a Magnetic Field. Springer, 2012.

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29

Bouillot, Pierre. Statics and Dynamics of Weakly Coupled Antiferromagnetic Spin-1/2 Ladders in a Magnetic Field. Springer, 2012.

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30

Bouillot, Pierre. Statics and Dynamics of Weakly Coupled Antiferromagnetic Spin-1/2 Ladders in a Magnetic Field. Springer, 2015.

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31

Schöpgens, Hans Wilhelm. Über Den Zusammenhang Zwischen der Temperaturabhängigkeit der Magnetischen Suszeptibilität und der Spezifischen Wärme Bei Antiferromagneten. VS Verlag fur Sozialwissenschaften GmbH, 2013.

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32

Solymar, L., D. Walsh, and R. R. A. Syms. Magnetic materials. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198829942.003.0011.

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Macroscopic and microscopic theories of magnetic polarization are discussed. The origin of domains, domain walls, and of the hysteresis curve and the contrast between soft and hard magnetic materials are explained. The more important elements of the quantum theory of magnetism are discussed. The principles of the alignments in antiferromagnetic and ferromagnetic materials are explained. Magnetic resonance phenomena are discussed. Magnetoresistance and spintronics and their device prospects are also discussed at some length.
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33

Hirshfeld, F. Electron Density Distributions in Molecules: An Enhanced Methodology for Antiferromagnetic Structure and Form-Factor Determinations (Crystallography Reviews). Routledge, 1991.

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34

Schöpgens, Hans Wilhelm. Über den Zusammenhang Zwischen der Temperaturabhängigkeit der Magnetischen Suszeptibilität und der Spezifischen Wärme bei Antiferromagneten ... Nordrhein-Westfalen ). VS Verlag für Sozialwissenschaften, 2014.

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35

Boudreau, Joseph F., and Eric S. Swanson. Quantum spin systems. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198708636.003.0022.

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The quantum mechanical underpinnings of magnetism are explored via the Heisenberg model of antiferromagnetism. The Lanczos algorithm is developed and applied to obtain ground state properties of the anisotropic antiferromagnetic Heisenberg spin chain. In particular, the phase diagram for the system magnetization is determined. A quantum Monte Carlo method that is appropriate for discrete systems is also presented. The method leverages the similarity between the Schrödinger equation and the diffusion equation to compute energy levels. The formalism necessary to compute ground state matrix elements is also developed. Finally, the method is tested with an application to the spin chain.
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36

Manchon, A., and S. Zhang. Theory of Rashba Torques. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198787075.003.0024.

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This chapter focuses on the theory of current-driven Rashba torque, a special type of spin–orbit mediated spin torque that requires broken spatial-inversion symmetry. This specific form of spin-orbit interaction enables the electrical generation of a non-equilibrium spin density that yields both damping-like and field-like torques on the local magnetic moments. We review the recent results obtained in (ferromagnetic and antiferromagnetic) two-dimensional electron gases, bulk magnetic semiconductors, and at the surface of topological insulators. We conclude by summarizing recent experimental results that support the emergence of Rashba torques in magnets lacking inversion symmetry.
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37

Ising-type Antiferromagnets: Model Systems in Statistical Physics and in the Magnetism of Exchange Bias (Springer Tracts in Modern Physics). Springer, 2003.

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38

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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39

Wernsdorfer, W. Molecular nanomagnets. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.4.

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This article describes the quantum phenomena observed in molecular nanomagnets. Molecular nanomagnets, or single-molecule magnets (SMMs), provides a fundamental link between spintronics and molecular electronics. SMMs combine the classic macroscale properties of a magnet with the quantum properties of a nanoscale entity. The resulting field, molecular spintronics, aims at manipulating spins and charges in electronic devices containing one or more molecules. This article first considers molecular nanomagnets and the giant spin model for nanomagnets before discussing the quantum dynamics of a dimer of nanomagnets, resonant photon absorption in Cr7Ni antiferromagnetic rings, and photon-assisted tunnelling in a single-molecule magnet. It also examines environmental decoherence effects in nanomagnets and concludes by highlighting the new trends towards molecular spintronics using junctions and nano-SQUIDs.
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40

Launay, Jean-Pierre, and Michel Verdaguer. The localized electron: magnetic properties. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198814597.003.0002.

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After preliminaries about electron properties, and definitions in magnetism, one treats the magnetism of mononuclear complexes, in particular spin cross-over, showing the role of cooperativity and the sensitivity to external perturbations. Orbital interactions and exchange interaction are explained in binuclear model systems, using orbital overlap and orthogonality concepts to explain antiferromagnetic or ferromagnetic coupling. The phenomenologically useful Spin Hamiltonian is defined. The concepts are then applied to extended molecular magnetic systems, leading to molecular magnetic materials of various dimensionalities exhibiting bulk ferro- or ferrimagnetism. An illustration is provided by Prussian Blue analogues. Magnetic anisotropy is introduced. It is shown that in some cases, a slow relaxation of magnetization arises and gives rise to appealing single-ion magnets, single-molecule magnets or single-chain magnets, a route to store information at the molecular level.
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