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목차 (Table of Contents)

CONTENTS
1 Preface = 1
2 Introduction = 7
3 Electric and Magnetic Moments = 13
3.1 Electric dipole and quadrupole moments = 13

CONTENTS
1 Preface = 1
2 Introduction = 7
3 Electric and Magnetic Moments = 13
3.1 Electric dipole and quadrupole moments = 13
3.2 Magnetic Moments = 18
3.3 Atoms and molecules = 23
3.4 Atomic moments = 24
3.5 Atomic nucleus and nuclear moments = 30
3.6 Hyperfine splitting in molecules = 36
3.7 Atomic polarizability = 37
3.8 Molecular polarizability : orientational = 39
3.9 Molecular polarizability : vibrational = 40
3.10 Polarization of matter = 42
3.11 A fourth kind of polarization = 50
3.12 Polarized sphere = 51
3.13 Magnetization in Matter = 52
3.14 Diamagnetism = 54
3.15 Paramagnetism = 56
3.16 Molecular paramagnetism = 57
3.17 Magnetism in metals = 59
3.18 Ferromagnetism = 60
4 Classical Limit = 63
4.1 Electromagnetic field = 63
4.2 Matter = 66
4.3 Perturbations and transitions = 69
4.4 Orientational polarizability = 73
4.5 Absorption and emission of radiation = 77
4.6 Motion of magnetization = 80
4.7 A quasi-classical note = 86
4.8 Macroscopic motion = 89
5 Magnetic Resonance Ⅰ = 93
5.1 Nuclear magnetic resonance = 93
5.2 Emitted field = 98
5.3 Line width = 99
5.4 Hyperfine splitting = 100
5.5 Ferromagnetic resonance = 102
5.6 Classical quasi-particles = 103
5.7 Quasi-classical dynamics = 108
5.8 Nuclear quadrupole resonance = 121
5.9 Quantum transitions = 127
5.10 Quasi-quantum mechanical dynamics = 129
5.11 A parametrization for the NQR = 132
6 Electric Dipolar Resonance = 141
6.1 Quasi-classical dynamics = 141
6.2 Vibration resonance = 150
6.3 Quasi-classical dynamics = 152
6.4 Rotation resonance. Planar rotator = 154
6.5 Rotation resonance. Spherical pendulum = 159
6.6 Rotation resonance. Quenched dipoles = 166
6.7 Parametric resonance = 171
6.8 Parametric resonance. Quenched dipoles = 172
6.8.1 Strong field = 172
6.8.2 Weak field = 178
6.8.3 Mathieu's equation = 182
7 Parametric Resonance in Rotation Molecular Spectra = 185
7.1 Summary and introduction = 185
7.2 Free rotations = 186
7.3 Strong static field = 191
7.4 Weak static field = 195
7.5 Dipolar interaction = 199
7.6 Discussion and conclusions = 204
7.7 Highly-oscillating electric fields = 205
7.8 Appendix = 207
8 Magnetic Resonance Ⅱ = 209
8.1 Classical magnetic moments = 209
8.2 Magnetic moments of the particles = 213
8.3 Nuclear magnetic resonance = 221
8.4 Emitted field = 231
8.5 Line width = 232
8.6 Hyperfine splitting = 234
8.7 Ferromagnetic resonance = 236
8.8 Quasi-classical dynamics = 236
8.9 Electric dipole and quadrupole moments = 242
8.10 Nuclear quadrupole resonance = 251
8.11 Spin echo = 253
9 "Exact" solutions = 257
9.1 A general case = 257
9.2 Right angles. Nuclear magnetic resonance = 262
9.3 Nuclear quadrupole resonance = 264
9.4 Parametric interaction = 266
9.5 Spectral line = 269
9.5.1 Introduction = 269
9.5.2 Zeeman splitting and transverse excitation = 270
9.5.3 Arbitrary orientation = 273
9.5.4 Conclusion = 276
10 Concluding Chapter = 279
10.1 Summary and introduction = 279
10.2 Quasi-classical dynamics. Quantum systems = 281
10.3 Example 1. Planar rotator = 288
10.4 Example 2. Spherical pendulum = 291
10.5 Extension to condensed matter = 293
10.6 Example 3. Nuclear magnetic resonance = 295
10.7 Example 4. Nuclear quadrupole resonance = 302
10.8 Discussion and conclusions = 307
11 Epilogue = 309
11.1 Introduction = 309
11.2 Old Quantum Mechanics = 310
11.3 Matricial Quantum Mechanics = 314
11.4 Wave Mechanics = 317
11.5 Additional remarks = 318
11.6 Fundamental experiments = 320
11.7 Concluding remarks = 321
12 References = 335
Index = 337

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Magnetic and electric resonance / : by Marian Apostol

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