Verfügbarkeit: Magnetic and electric resonance /

Magnetic and electric resonance /:

This book is devoted to a quasi-classical treatment of quantum transitions, with an emphasis on nuclear magnetic resonance, nuclear quadrupole resonance and electric dipolar resonance. The method described here is based on the quasi-classical description of condensed matter, and makes use of the equ...

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Bibliographische Detailangaben
1. Verfasser:	Apostol, Marian (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Newcastle upon Tyne, UK : Cambridge Scholars Publishing, 2018.
Schlagworte:	Magnetic resonance. Nuclear magnetic resonance. Resonance. Magnetic Resonance Spectroscopy Résonance magnétique. Résonance magnétique nucléaire. Résonance. nuclear magnetic resonance. resonance (acoustics concept) Quantum physics (quantum mechanics & quantum field theory) Mathematical physics. Applied physics. SCIENCE > Physics > Magnetism. Magnetic resonance Nuclear magnetic resonance Resonance
Online-Zugang:	Volltext
Zusammenfassung:	This book is devoted to a quasi-classical treatment of quantum transitions, with an emphasis on nuclear magnetic resonance, nuclear quadrupole resonance and electric dipolar resonance. The method described here is based on the quasi-classical description of condensed matter, and makes use of the equation of motion of harmonic oscillators with external forces. In addition to known results in magnetic resonance, the book also presents parametric resonance for electric dipoles and dipolar interaction which may lead to spontaneous electric polarization.
Beschreibung:	1 online resource (viii, 340 pages)
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781527514942 1527514943

Internformat

MARC


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505	0		\|a Intro; Contents; 1 Preface; 2 Introduction; 3 Electric and Magnetic Moments; 3.1 Electric dipole and quadrupole moments; 3.2 Magnetic Moments; 3.3 Atoms and molecules; 3.4 Atomic moments; 3.5 Atomic nucleus and nuclear moments; 3.6 Hyperfine splitting in molecules; 3.7 Atomic polarizability; 3.8 Molecular polarizability: orientational; 3.9 Molecular polarizability: vibrational; 3.10 Polarization of matter; 3.11 A fourth kind of polarization; 3.12 Polarized sphere; 3.13 Magnetization in Matter; 3.14 Diamagnetism; 3.15 Paramagnetism; 3.16 Molecular paramagnetism; 3.17 Magnetism in metals
505	8		\|a 3.18 Ferromagnetism4 Classical Limit; 4.1 Electromagnetic field; 4.2 Matter; 4.3 Perturbations and transitions; 4.4 Orientational polarizability; 4.5 Absorption and emission of radiation; 4.6 Motion of magnetization; 4.7 A quasi-classical note; 4.8 Macroscopic motion; 5 Magnetic Resonance I; 5.1 Nuclear magnetic resonance; 5.2 Emitted field; 5.3 Line width; 5.4 Hyperfine splitting; 5.5 Ferromagnetic resonance; 5.6 Classical quasi-particles; 5.7 Quasi-classical dynamics; 5.8 Nuclear quadrupole resonance; 5.9 Quantum transitions; 5.10 Quasi-quantum mechanical dynamics
505	8		\|a 5.11 A parametrization for the NQR6 Electric Dipolar Resonance; 6.1 Quasi-classical dynamics; 6.2 Vibration resonance; 6.3 Quasi-classical dynamics; 6.4 Rotation resonance. Planar rotator; 6.5 Rotation resonance. Spherical pendulum; 6.6 Rotation resonance. Quenched dipoles; 6.7 Parametric resonance; 6.8 Parametric resonance. Quenched dipoles; 7 Parametric Resonance in Rotation Molecular Spectra; 7.1 Summary and introduction; 7.2 Free rotations; 7.3 Strong static field; 7.4 Weak static field; 7.5 Dipolar interaction; 7.6 Discussion and conclusions; 7.7 Highly-oscillating electric fields
505	8		\|a 7.8 Appendix8 Magnetic Resonance II; 8.1 Classical magnetic moments; 8.2 Magnetic moments of the particles; 8.3 Nuclear magnetic resonance; 8.4 Emitted field; 8.5 Line width; 8.6 Hyperfine splitting; 8.7 Ferromagnetic resonance; 8.8 Quasi-classical dynamics; 8.9 Electric dipole and quadrupole moments; 8.10 Nuclear quadrupole resonance; 8.11 Spin echo; 9 ""Exact"" solutions; 9.1 A general case; 9.2 Right angles. Nuclear magnetic resonance; 9.3 Nuclear quadrupole resonance; 9.4 Parametric interaction; 9.5 Spectral line; 9.5.1 Introduction; 9.5.2 Zeeman splitting and transverse excitation
505	8		\|a 9.5.3 Arbitrary orientation9.5.4 Conclusion; 10 Concluding Chapter; 10.1 Summary and introduction; 10.2 Quasi-classical dynamics. Quantum systems; 10.3 Example 1. Planar rotator; 10.4 Example 2. Spherical pendulum; 10.5 Extension to condensed matter; 10.6 Example 3. Nuclear magnetic resonance; 10.7 Example 4. Nuclear quadrupole resonance; 10.8 Discussion and conclusions; 11 Epilogue; 11.1 Introduction; 11.2 Old Quantum Mechanics; 11.3 Matricial Quantum Mechanics; 11.4 Wave Mechanics; 11.5 Additional remarks; 11.6 Fundamental experiments; 11.7 Concluding remarks; 12 References; Index
520			\|a This book is devoted to a quasi-classical treatment of quantum transitions, with an emphasis on nuclear magnetic resonance, nuclear quadrupole resonance and electric dipolar resonance. The method described here is based on the quasi-classical description of condensed matter, and makes use of the equation of motion of harmonic oscillators with external forces. In addition to known results in magnetic resonance, the book also presents parametric resonance for electric dipoles and dipolar interaction which may lead to spontaneous electric polarization.
650		0	\|a Magnetic resonance. \|0 http://id.loc.gov/authorities/subjects/sh85079740
650		0	\|a Nuclear magnetic resonance. \|0 http://id.loc.gov/authorities/subjects/sh85093005
650		0	\|a Resonance. \|0 http://id.loc.gov/authorities/subjects/sh85113157
650		2	\|a Magnetic Resonance Spectroscopy \|0 https://id.nlm.nih.gov/mesh/D009682
650		6	\|a Résonance magnétique.
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650		6	\|a Résonance.
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contents	Intro; Contents; 1 Preface; 2 Introduction; 3 Electric and Magnetic Moments; 3.1 Electric dipole and quadrupole moments; 3.2 Magnetic Moments; 3.3 Atoms and molecules; 3.4 Atomic moments; 3.5 Atomic nucleus and nuclear moments; 3.6 Hyperfine splitting in molecules; 3.7 Atomic polarizability; 3.8 Molecular polarizability: orientational; 3.9 Molecular polarizability: vibrational; 3.10 Polarization of matter; 3.11 A fourth kind of polarization; 3.12 Polarized sphere; 3.13 Magnetization in Matter; 3.14 Diamagnetism; 3.15 Paramagnetism; 3.16 Molecular paramagnetism; 3.17 Magnetism in metals 3.18 Ferromagnetism4 Classical Limit; 4.1 Electromagnetic field; 4.2 Matter; 4.3 Perturbations and transitions; 4.4 Orientational polarizability; 4.5 Absorption and emission of radiation; 4.6 Motion of magnetization; 4.7 A quasi-classical note; 4.8 Macroscopic motion; 5 Magnetic Resonance I; 5.1 Nuclear magnetic resonance; 5.2 Emitted field; 5.3 Line width; 5.4 Hyperfine splitting; 5.5 Ferromagnetic resonance; 5.6 Classical quasi-particles; 5.7 Quasi-classical dynamics; 5.8 Nuclear quadrupole resonance; 5.9 Quantum transitions; 5.10 Quasi-quantum mechanical dynamics 5.11 A parametrization for the NQR6 Electric Dipolar Resonance; 6.1 Quasi-classical dynamics; 6.2 Vibration resonance; 6.3 Quasi-classical dynamics; 6.4 Rotation resonance. Planar rotator; 6.5 Rotation resonance. Spherical pendulum; 6.6 Rotation resonance. Quenched dipoles; 6.7 Parametric resonance; 6.8 Parametric resonance. Quenched dipoles; 7 Parametric Resonance in Rotation Molecular Spectra; 7.1 Summary and introduction; 7.2 Free rotations; 7.3 Strong static field; 7.4 Weak static field; 7.5 Dipolar interaction; 7.6 Discussion and conclusions; 7.7 Highly-oscillating electric fields 7.8 Appendix8 Magnetic Resonance II; 8.1 Classical magnetic moments; 8.2 Magnetic moments of the particles; 8.3 Nuclear magnetic resonance; 8.4 Emitted field; 8.5 Line width; 8.6 Hyperfine splitting; 8.7 Ferromagnetic resonance; 8.8 Quasi-classical dynamics; 8.9 Electric dipole and quadrupole moments; 8.10 Nuclear quadrupole resonance; 8.11 Spin echo; 9 ""Exact"" solutions; 9.1 A general case; 9.2 Right angles. Nuclear magnetic resonance; 9.3 Nuclear quadrupole resonance; 9.4 Parametric interaction; 9.5 Spectral line; 9.5.1 Introduction; 9.5.2 Zeeman splitting and transverse excitation 9.5.3 Arbitrary orientation9.5.4 Conclusion; 10 Concluding Chapter; 10.1 Summary and introduction; 10.2 Quasi-classical dynamics. Quantum systems; 10.3 Example 1. Planar rotator; 10.4 Example 2. Spherical pendulum; 10.5 Extension to condensed matter; 10.6 Example 3. Nuclear magnetic resonance; 10.7 Example 4. Nuclear quadrupole resonance; 10.8 Discussion and conclusions; 11 Epilogue; 11.1 Introduction; 11.2 Old Quantum Mechanics; 11.3 Matricial Quantum Mechanics; 11.4 Wave Mechanics; 11.5 Additional remarks; 11.6 Fundamental experiments; 11.7 Concluding remarks; 12 References; Index
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publisher	Cambridge Scholars Publishing,
record_format	marc
spelling	Apostol, Marian, author. Magnetic and electric resonance / by Marian Apostol. Newcastle upon Tyne, UK : Cambridge Scholars Publishing, 2018. 1 online resource (viii, 340 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index. Print version record. Intro; Contents; 1 Preface; 2 Introduction; 3 Electric and Magnetic Moments; 3.1 Electric dipole and quadrupole moments; 3.2 Magnetic Moments; 3.3 Atoms and molecules; 3.4 Atomic moments; 3.5 Atomic nucleus and nuclear moments; 3.6 Hyperfine splitting in molecules; 3.7 Atomic polarizability; 3.8 Molecular polarizability: orientational; 3.9 Molecular polarizability: vibrational; 3.10 Polarization of matter; 3.11 A fourth kind of polarization; 3.12 Polarized sphere; 3.13 Magnetization in Matter; 3.14 Diamagnetism; 3.15 Paramagnetism; 3.16 Molecular paramagnetism; 3.17 Magnetism in metals 3.18 Ferromagnetism4 Classical Limit; 4.1 Electromagnetic field; 4.2 Matter; 4.3 Perturbations and transitions; 4.4 Orientational polarizability; 4.5 Absorption and emission of radiation; 4.6 Motion of magnetization; 4.7 A quasi-classical note; 4.8 Macroscopic motion; 5 Magnetic Resonance I; 5.1 Nuclear magnetic resonance; 5.2 Emitted field; 5.3 Line width; 5.4 Hyperfine splitting; 5.5 Ferromagnetic resonance; 5.6 Classical quasi-particles; 5.7 Quasi-classical dynamics; 5.8 Nuclear quadrupole resonance; 5.9 Quantum transitions; 5.10 Quasi-quantum mechanical dynamics 5.11 A parametrization for the NQR6 Electric Dipolar Resonance; 6.1 Quasi-classical dynamics; 6.2 Vibration resonance; 6.3 Quasi-classical dynamics; 6.4 Rotation resonance. Planar rotator; 6.5 Rotation resonance. Spherical pendulum; 6.6 Rotation resonance. Quenched dipoles; 6.7 Parametric resonance; 6.8 Parametric resonance. Quenched dipoles; 7 Parametric Resonance in Rotation Molecular Spectra; 7.1 Summary and introduction; 7.2 Free rotations; 7.3 Strong static field; 7.4 Weak static field; 7.5 Dipolar interaction; 7.6 Discussion and conclusions; 7.7 Highly-oscillating electric fields 7.8 Appendix8 Magnetic Resonance II; 8.1 Classical magnetic moments; 8.2 Magnetic moments of the particles; 8.3 Nuclear magnetic resonance; 8.4 Emitted field; 8.5 Line width; 8.6 Hyperfine splitting; 8.7 Ferromagnetic resonance; 8.8 Quasi-classical dynamics; 8.9 Electric dipole and quadrupole moments; 8.10 Nuclear quadrupole resonance; 8.11 Spin echo; 9 ""Exact"" solutions; 9.1 A general case; 9.2 Right angles. Nuclear magnetic resonance; 9.3 Nuclear quadrupole resonance; 9.4 Parametric interaction; 9.5 Spectral line; 9.5.1 Introduction; 9.5.2 Zeeman splitting and transverse excitation 9.5.3 Arbitrary orientation9.5.4 Conclusion; 10 Concluding Chapter; 10.1 Summary and introduction; 10.2 Quasi-classical dynamics. Quantum systems; 10.3 Example 1. Planar rotator; 10.4 Example 2. Spherical pendulum; 10.5 Extension to condensed matter; 10.6 Example 3. Nuclear magnetic resonance; 10.7 Example 4. Nuclear quadrupole resonance; 10.8 Discussion and conclusions; 11 Epilogue; 11.1 Introduction; 11.2 Old Quantum Mechanics; 11.3 Matricial Quantum Mechanics; 11.4 Wave Mechanics; 11.5 Additional remarks; 11.6 Fundamental experiments; 11.7 Concluding remarks; 12 References; Index This book is devoted to a quasi-classical treatment of quantum transitions, with an emphasis on nuclear magnetic resonance, nuclear quadrupole resonance and electric dipolar resonance. The method described here is based on the quasi-classical description of condensed matter, and makes use of the equation of motion of harmonic oscillators with external forces. In addition to known results in magnetic resonance, the book also presents parametric resonance for electric dipoles and dipolar interaction which may lead to spontaneous electric polarization. Magnetic resonance. http://id.loc.gov/authorities/subjects/sh85079740 Nuclear magnetic resonance. http://id.loc.gov/authorities/subjects/sh85093005 Resonance. http://id.loc.gov/authorities/subjects/sh85113157 Magnetic Resonance Spectroscopy https://id.nlm.nih.gov/mesh/D009682 Résonance magnétique. Résonance magnétique nucléaire. Résonance. nuclear magnetic resonance. aat resonance (acoustics concept) aat Quantum physics (quantum mechanics & quantum field theory) bicssc Mathematical physics. bicssc Applied physics. bicssc SCIENCE Physics Magnetism. bisacsh Magnetic resonance fast Nuclear magnetic resonance fast Resonance fast Print version: Apostol, Marian. Magnetic and electric resonance. Newcastle upon Tyne, UK : Cambridge Scholars Publishing, 2018 9781527505988 (OCoLC)1038287315 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1856840 Volltext
spellingShingle	Apostol, Marian Magnetic and electric resonance / Intro; Contents; 1 Preface; 2 Introduction; 3 Electric and Magnetic Moments; 3.1 Electric dipole and quadrupole moments; 3.2 Magnetic Moments; 3.3 Atoms and molecules; 3.4 Atomic moments; 3.5 Atomic nucleus and nuclear moments; 3.6 Hyperfine splitting in molecules; 3.7 Atomic polarizability; 3.8 Molecular polarizability: orientational; 3.9 Molecular polarizability: vibrational; 3.10 Polarization of matter; 3.11 A fourth kind of polarization; 3.12 Polarized sphere; 3.13 Magnetization in Matter; 3.14 Diamagnetism; 3.15 Paramagnetism; 3.16 Molecular paramagnetism; 3.17 Magnetism in metals 3.18 Ferromagnetism4 Classical Limit; 4.1 Electromagnetic field; 4.2 Matter; 4.3 Perturbations and transitions; 4.4 Orientational polarizability; 4.5 Absorption and emission of radiation; 4.6 Motion of magnetization; 4.7 A quasi-classical note; 4.8 Macroscopic motion; 5 Magnetic Resonance I; 5.1 Nuclear magnetic resonance; 5.2 Emitted field; 5.3 Line width; 5.4 Hyperfine splitting; 5.5 Ferromagnetic resonance; 5.6 Classical quasi-particles; 5.7 Quasi-classical dynamics; 5.8 Nuclear quadrupole resonance; 5.9 Quantum transitions; 5.10 Quasi-quantum mechanical dynamics 5.11 A parametrization for the NQR6 Electric Dipolar Resonance; 6.1 Quasi-classical dynamics; 6.2 Vibration resonance; 6.3 Quasi-classical dynamics; 6.4 Rotation resonance. Planar rotator; 6.5 Rotation resonance. Spherical pendulum; 6.6 Rotation resonance. Quenched dipoles; 6.7 Parametric resonance; 6.8 Parametric resonance. Quenched dipoles; 7 Parametric Resonance in Rotation Molecular Spectra; 7.1 Summary and introduction; 7.2 Free rotations; 7.3 Strong static field; 7.4 Weak static field; 7.5 Dipolar interaction; 7.6 Discussion and conclusions; 7.7 Highly-oscillating electric fields 7.8 Appendix8 Magnetic Resonance II; 8.1 Classical magnetic moments; 8.2 Magnetic moments of the particles; 8.3 Nuclear magnetic resonance; 8.4 Emitted field; 8.5 Line width; 8.6 Hyperfine splitting; 8.7 Ferromagnetic resonance; 8.8 Quasi-classical dynamics; 8.9 Electric dipole and quadrupole moments; 8.10 Nuclear quadrupole resonance; 8.11 Spin echo; 9 ""Exact"" solutions; 9.1 A general case; 9.2 Right angles. Nuclear magnetic resonance; 9.3 Nuclear quadrupole resonance; 9.4 Parametric interaction; 9.5 Spectral line; 9.5.1 Introduction; 9.5.2 Zeeman splitting and transverse excitation 9.5.3 Arbitrary orientation9.5.4 Conclusion; 10 Concluding Chapter; 10.1 Summary and introduction; 10.2 Quasi-classical dynamics. Quantum systems; 10.3 Example 1. Planar rotator; 10.4 Example 2. Spherical pendulum; 10.5 Extension to condensed matter; 10.6 Example 3. Nuclear magnetic resonance; 10.7 Example 4. Nuclear quadrupole resonance; 10.8 Discussion and conclusions; 11 Epilogue; 11.1 Introduction; 11.2 Old Quantum Mechanics; 11.3 Matricial Quantum Mechanics; 11.4 Wave Mechanics; 11.5 Additional remarks; 11.6 Fundamental experiments; 11.7 Concluding remarks; 12 References; Index Magnetic resonance. http://id.loc.gov/authorities/subjects/sh85079740 Nuclear magnetic resonance. http://id.loc.gov/authorities/subjects/sh85093005 Resonance. http://id.loc.gov/authorities/subjects/sh85113157 Magnetic Resonance Spectroscopy https://id.nlm.nih.gov/mesh/D009682 Résonance magnétique. Résonance magnétique nucléaire. Résonance. nuclear magnetic resonance. aat resonance (acoustics concept) aat Quantum physics (quantum mechanics & quantum field theory) bicssc Mathematical physics. bicssc Applied physics. bicssc SCIENCE Physics Magnetism. bisacsh Magnetic resonance fast Nuclear magnetic resonance fast Resonance fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85079740 http://id.loc.gov/authorities/subjects/sh85093005 http://id.loc.gov/authorities/subjects/sh85113157 https://id.nlm.nih.gov/mesh/D009682
title	Magnetic and electric resonance /
title_auth	Magnetic and electric resonance /
title_exact_search	Magnetic and electric resonance /
title_full	Magnetic and electric resonance / by Marian Apostol.
title_fullStr	Magnetic and electric resonance / by Marian Apostol.
title_full_unstemmed	Magnetic and electric resonance / by Marian Apostol.
title_short	Magnetic and electric resonance /
title_sort	magnetic and electric resonance
topic	Magnetic resonance. http://id.loc.gov/authorities/subjects/sh85079740 Nuclear magnetic resonance. http://id.loc.gov/authorities/subjects/sh85093005 Resonance. http://id.loc.gov/authorities/subjects/sh85113157 Magnetic Resonance Spectroscopy https://id.nlm.nih.gov/mesh/D009682 Résonance magnétique. Résonance magnétique nucléaire. Résonance. nuclear magnetic resonance. aat resonance (acoustics concept) aat Quantum physics (quantum mechanics & quantum field theory) bicssc Mathematical physics. bicssc Applied physics. bicssc SCIENCE Physics Magnetism. bisacsh Magnetic resonance fast Nuclear magnetic resonance fast Resonance fast
topic_facet	Magnetic resonance. Nuclear magnetic resonance. Resonance. Magnetic Resonance Spectroscopy Résonance magnétique. Résonance magnétique nucléaire. Résonance. nuclear magnetic resonance. resonance (acoustics concept) Quantum physics (quantum mechanics & quantum field theory) Mathematical physics. Applied physics. SCIENCE Physics Magnetism. Magnetic resonance Nuclear magnetic resonance Resonance
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1856840
work_keys_str_mv	AT apostolmarian magneticandelectricresonance

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