Guimaraes A.P. — Magnetism and Magnetic Resonance in Solids :: Электронная библиотека попечительского совета мехмата МГУ

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Guimaraes A.P. — Magnetism and Magnetic Resonance in Solids

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Название: Magnetism and Magnetic Resonance in Solids

Автор: Guimaraes A.P.

Аннотация:

The first text that focuses on the research aspect of the magnetism of matter and magnetic resonance. Explores the properties of magnetic materials and their applications to our world today from magnetic media and recording to magnetic resonance imaging (MRI).

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 1st edition

Год издания: 1998

Количество страниц: 312

Добавлена в каталог: 19.03.2008

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Ruderman — Kittel — Kasuya — Yoshida (RKKY) model      72
Russell — Saunders coupling      32
s (conduction electron spin)      71
s (penetration depth)      154
S (south)      7
S (total spin angular momentum)      32 172 173
s electron      73 164—165 169—170 175
s state      163 170 180
Saturation      131—132 138 140 144—145 148 196 203 225 279
saturation magnetization      115 121 123—124 140—141 148 243 248 259
Saturation magnetostriction      130 132
Saturation magnetostriction constant      130
sc      40
Schroedinger equation      29—30 63 82
Schultz (1973)      155
Secular broadening      204 206
Seeger and Kronmiiller (1989)      112
Self-correlation      204
Self-energy      120
Semiconductor      153 161 165
Shadowitz (1975)      XII 2 24
Shape anisotropy      125—126 144
Shape anisotropy energy      125
Shape effect      132
Shell      30 47 180 182
shielding      46
Shimizu (1981)      112
Short range correlation      74
Short range order      75
Si      2—3 5 9—11 25 28 50 119 124 163 177 257
Silver      40
Single domain      123 135—136 149
Single-crystal      121—122
Singlet      65
Skin effect      154 242
Slater — Pauling curve      20 22
Slater — Pauling dependence      107
Slichter (1990)      163 187 204 224
Slow passage      199
SM      46
Smart (1966)      75 77 78 79 89
Sodium chloride      13
Soft magnetic material      116—117 141—142
Solenoid      3
Sommerfeld convention      5
Sommerfeld expansion      266
South pole      7
Space quantization      31
Sparks (1964)      247
Spatial diffusion      214
Specific heat      75 90
Spectral density function      205
Spectral diffusion      214
Spectroscopic splitting factor      192
Sperimagnetism      17
Speromagnet      17
Speromagnetism      17 18
Spherical harmonics      161
Spin      28
Spin angular momentum      28 32 57 168
Spin density      71 80 87—88 168—170 173
Spin echo      214 218 220—223 229 240
Spin function      65
Spin magnetic moment      34
Spin operator      81—82 127 185
Spin packet      217
spin quantum number      31 85
Spin temperature      208 210
Spin wave      79—81 83—86 90 228—229 245
Spin wave function      81
Spin wave resonance      153—154
Spin-glass      17—18 148
Spin-lattice interaction      212
Spin-lattice relaxation      190 213 215
Spin-orbit      46
Spin-orbit coupling      34 123 260
Spin-orbit coupling constant      34
Spin-orbit interaction      55 57 60 160
Spin-orbit splitting      47
Spin-spin interaction      190 212—213 218 220
Spin-spin process      215
Spin-spin relaxation      215 249
Spin-spin relaxation time      190 215
Stancil (1994)      247
Static nuclear susceptibility      4
Stearns (1966)      181 187
Stearns (1967)      240 241 247
Sternheimer factor      183
Steven's operators      4 56
Stevens (1952)      56 59
Stiffness constant      80 84 88—89
Stimulated echo      221
Stone (1986)      187
Stoner (1938)      100 112
Stoner criterion      100 102 107 113
Stoner model      102—107 109 111
Stoner parameter      100
Stoner — Hubbard parameter      100

strain      127—129 229—230
Stress      127—129 131—132
Strong crystal field      56
Strong ferromagnet      103
Strong itinerant magnet      18 102
Subshell      40
Suhl — Nakamura (SN) effect      229
Suhl — Nakamura (SN) interaction      213
Superconductor, type II      118
Superferromagnetism      17
Superparamagnetism      16—17 48—49
Surface anisotropy      126
susceptibility      53—54 71 76 78 97 99 104 107 109 113 118 135 235 248 265 270
Susceptibility mass      5—6
Susceptibility specific      5
Susceptibility volume      5—7 45
Susceptibility, differential      5
Susceptibility, extrinsic      244
Susceptibility, intrinsic      244
Swartzendruber (1991)      54 59
Systeme International d'Unites      see “SI”
s—f hybridization      73
T (tesla)      2
Taylor (1971)      187
Taylor (1995)      1 24
Taylor and Darby (1972)      59 187
Taylor series      87 128 161
Technical saturation      144
Tesla      2 5 178 200
Tesseral harmonics      161
Texture      132
Thermal average      74 173 177 193
Thermal reservoir      189 207 209 211
Thermal vibrations      203
Thin film      125—126 243
Time effects      148
TM      58
Toroid      10 12
Total angular momentum      69 165 170 188—189 274
Total magnetic moment      34
Transferred field      177 178
Transition elements      40 46 55
Transition metals      40 92—94 100 102 108
Transition probability      209
Transition rate      208
Transverse magnetization      190 204—205 214—219 232 234
Transverse relaxation      196 203 205 210 213—215
Transverse susceptibility      232 234—235
Tribuzy and Guimaraes (1997), unpublished      231 247
Triplet      65
Turov and Petrov (1972)      232 246
Types of magnetism      12
Uniaxial anisotropy      23 124 126 131 135 144
Uniform mode      229
Uniform mode precession frequency      243
Unit vector      196
Unpaired electrons      27
Vacuum magnetic permeability      2 29
Vacuum permeability      3 119 235
Vacuum permittivity      164
van Vleck induced paramagnetism      19
Vector model      31
Vector potential      166—167 170—171
Virgin curve      137—138 140
Viscosity, magnetic      149
Vonsovskii (1946)      181 187
Vonsovskii (1966)      247
W (crystal field scaling parameter)      58
Wall mobility      144
Watson (1967)      74 89
Weak crystal field      56
Weak ferromagnet      102—103
Weak itinerant magnet      18 111
Webers per square meter      3
Weger process      212
Weisman et al. (1973)      207 213 224 231 246 247
Weiss and Forrer (1926)      20 24
Weiss approximation      74
Weiss model      52—55 73—75 77—79 105
Weiss molecular field      69
Weiss, P.      49 51 63
Wigner — Eckart theorem      163
Williams (1986)      89 112 155
Wohlfarth (1976)      111 112
Wohlfarth (1980)      88 89 96 102 112
Wohlfarth (1982)      24
Work      119—120 131
Working point      121
Y      40
Young's modulus      128
Z (atomic number)      160 182
z (number of nearest neighbors)      77 79 82
Zeeman levels      190 216 221
Zeeman term      83
Zener (1951)      70 89 181 187
Zener model      71
Zero-field NMR      216 229
Zhang et al. (1991)      228 231 247
Zinn (1974)      246

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