Fukushima E., w. Roeder S.B. — Experimental Pulse NMR: A Nuts and Bolts Approach :: Электронная библиотека попечительского совета мехмата МГУ

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Fukushima E., w. Roeder S.B. — Experimental Pulse NMR: A Nuts and Bolts Approach

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Название: Experimental Pulse NMR: A Nuts and Bolts Approach

Авторы: Fukushima E., w. Roeder S.B.

Аннотация:

This book is about pulse nuclear magnetic resonance (NMR), with its techniques, the information to be obtained, and practical advice on performing experiments. The emphasis is on the motivation and physical ideas underlying NMR experiments and the actual techniques, including the hardware used. The level is generally suitable for those to whom pulse NMR is a new technique, be they students in chemistry or physics on the one hand and research workers in biology, geology, or agriculture, on the other. The book can be used for a senior or first year graduate course where it could supplement the standard NMR texts.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1986

Количество страниц: 539

Добавлена в каталог: 05.03.2010

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

Предметный указатель

$H_{1}$ inhomogeneity      460—462
$H_{1}$ inhomogeneity, composite pulse to alleviate      462—463
$H_{1}$ inhomogeneity, how to measure      381 462
$T_{1D}$       244—246 250 256—258
$T_{1\rho}$       see "Spin lattice relaxation in rotating frame"
$T_{1}$       see "Spin-lattice relaxation time"
$T_{2}$       see "Spin-spin relaxation time"
$T_{2}^{*}$       22—24
$\pi$ /2 pulse      11 21
$\pi$ /2 pulse, how to set      435—437
180° pulse      21
90° pulse      see " $\pi$ /2 pulse"
Abragam, A.      108 130 159 227 233 233 236 239 513
Ackerman, J.L.      120
Activation enthalpy      147
Addition theorem      48
Adiabatic demagnetization in rotating frame      246—251
Adiabatic fast passage      17—19 248
Ahn, M.-K.      198 201
Ailion, D.C.      265 266 269 270
Albrecht, A.P.      385
Alderman, D.W.      105 105 490
Alia, M.      490
Aliasing      see "Folding"
Allerhand, A.      34 35 62 75
Anderson, A.G.      246 246 247 250 251
Anderson, W.A.      3 14 42 43 152 331 334 438 445 448 448 501 513
Andrew, E.R.      160 161 236 239 240 240 281 282 487 488 490 490
Apodization      90
Armitage, I.M.      64 75
Armstrong, R.L.      391 392 398 400
Assink, R.A.      199 201
Autocorrelation function      143—144
Avogadro, A.      160 161 370 373
Baker, E.B.      331 334
Barnaal, D.      493 497
Barnes, R.G.      226
Barron, P.F.      105
Barum, D.P.      291 291
Becker, E.D.      29 35 46 181 181 511
Bendall, M.R.      105
Bennett, L.H.      513
Bertrand, R.D.      292
Bigam, G.      116
Biryukov, I.P.      152 156
Bleich, H.E.      181
Blinc, R.      154 156 239 240
Bloembergen, N.      218 226
Bloom, M.      258 261
Blume, R.J.      318
Bock, K.      105 105
Boden, N.      252 252 255 255 331 334 513
Bodenhausen, G.      115 116
Boltzmann factor      6 126 242
Boltzmann factor and spin temperature      270—273
Boss, B.D.      208 208
Bracewell, R.      48 50 52 60 211 513
Bradbury, A.      490
Broekaert, P.      247 251 256 261
Brookeman, J.R.      121 122 330
Buchdahl, R.      490
Buckmaster, H.A.      190 197
Buess, M.L.      464 467
Burd, L.W.      334
Burgan, R.D.      209
Burnell, E.E.      261
Buschow, K.H.J.      226 440
Callaghan, P.T.      205 208
CAMAC      324 364—373
Canepa, P.C.      122 330
Canet, D.      86 88 102 105 174 176
Capart, J.      334
Carlson, E.R.      318
Carr — Purcell echo train      31—32
Carr — Purcell echo train for setting pulse length      434
Carr — Purcell Meiboom — Gill      32—34
Carr — Purcell Meiboom — Gill, J—spectra      121—123
Carr, H.Y.      31 35 198 201
Carrazza, B.      233 240
Carrier frequency, placement of      81—84
Carrington, A.      159 513
Casimir, H.B.G.      506 507
Chemical shift concertina      491—492
Chihara, H.      145 151
Childers, R.F.      75
Chingas, G.C.      291 291
Christensen, C.R.      415
Christensen, K.A.      191 196
Clark, W.G.      329 367 367 378 385 397 399
Cochran, D.W.      34 35
Cohen, M.H.      152 156 230 240
Cohen-Addad, J.P.      254 254 255 255
Cohn-Sfetcu, S.      482 483
Coil formula      379
Convolution      50 480—481
Cooper, J.W.      63 75 80 81 90 92 345 513
Cotts, R.M.      208 209
Courtney, J.A.      467
CPMG      see "Carr — Purcell Meiboom — Gill"
Creyghton, J.H.N.      226 226 440 440
Cross polarization      284—292
Crossed diodes      388—392
Crossed diodes, high threshold      390—391
Crossed diodes, low threshold      325
Cueman, M.K.      471 474
Curie's law      126
Cutnell, J.D.      135 135 180 181
Dadok, J.      44 46
Damping, critical, of tank circuit      329
Daniel, C.      415
Dante      115
Das, T.P.      152 156
Data acquisition, hardware      344—346
Data acquisition, transient      318—324
Davis, D.C.      385
Daycock, J.T.      247 251 251 486
Deadtime, problems of      94—97
Decibel (dB)      507—508
Decoupling, broadband heteronuclear      99—100
Decoupling, gated      101—103
Decoupling, heating effects of      104—105 352
Decoupling, high power (solids)      283—284
Decoupling, homonuclear      103
Decoupling, in solution NMR      98—106
Decoupling, off-resonance      101
Decoupling, power      104
Decoupling, sample heating from      105
Decoupling, selective      100—101
DEFT      29—30 34—35
Delpuech, J.-J.      513
Demco, D.E.      180 181
Derbyshire, W.      324
DeReggi, A.S.      122
Detectors      308—309
Digitizer      318—323 345
Digitizer, resolution      79—81
Digitizing rate      77—79 318—322
Dip meter      427 431 457
Dipolar order      241—246
Directional coupler      419
Directional coupler as duplexer      394—395
Directional wattmeter      424
Doddrel, D.M.      101 105
Dotsenko, G.I.      256
Double balanced mixer      416—418
Douglass, D.C.      269 270 385
Dullenkopf, P.      378 385 408 416
Duncan, T.M.      473 474
Duplexer      309—310 392—400
Duplexer, tuning      429—430

Dwell time      see "Digitizing rate"
Dynamic range      79—81
Eades, R.G.      236 240 490
Earl, W.L.      350
Echo envelope modulation      see "CPMG" "J-spectra"
Eckman, R.      489 490
Edmonds, D.T.      485 486
Edzes, H.T.      184 186 196
El Saffar, Z.M.      227
Electric field gradient (EFG)      106—107
Electric quadrupole moment      106 148
Ellett, J.D.      293 295 295 367 367 395 399 414 415 491 492
Elmore, W.C.      489 490
Emid, S.      261 261
Engle, J.L.      399 399
Englesberg, M.      383 385 496 497
Equipment, for maintenance      454—458
Ernst angle      446 448
Ernst, R.R.      3 14 42 43 291 291 448 448 448 448
Erzen, V.      197
Exponential relaxation, analysis of      185—197
Farnell, L.F.      490
Farrar, T.C.      35 157 513
Fedin, E.I.      238 241
Ferguson, R.D.      209
Ferretti, J.A.      35 46 181
Ferrige, A.G.      77 77
FID      see "Free induction decay"
Field cycling      483—486
Filter, analog      474—479
Filter, digital      479—482
Filter, low pass      78
Filter, RC      476—478
Filter, reverse time      482
First moment      229
Firth, M.      490
Folding      61—63 83
Fourier transform      38—43 44—46
Fourier transform, definition      39 48
Fourier transform, theorems      47—50
Free induction decay (FID)      12 26
Free induction decay (FID), digital treatment of      88—92
Freeman, R.      101 105 116 112 115 116 117 120 122 122 173 176 291 292 462 463 463 463
Freeze-pump-thaw      162—163
Frequency meter      457
Frequency, optimal      339—341
Fukushima, E.      136 136 139 139 152 156 213 215 239 240 368 373 464 467
Fyfe, C.A.      489 490
Gambhir, P.N.      181
Garroway, A.N.      291 350
Gaussian function      137—138
Gersch, U.      408 415
Gibby, M.G.      292 292 295 367 399 415
Gibson, A.A.V.      58 60 139 139 215 466 467
Gill, D.      33 35
Glasel, J.A.      181
Gledhill, T.D.      490
Golay, M.J.E.      482 483
Goldblatt, M.      156
Goldburg, W.I.      292 295
Goldman, M.      113 116 256 261 274 275
Gordon, R.E.      204 208
Goulon-Ginet, C.      88
Graham, T.P.      226
Grant, D.M.      105 105 135 136 196 490
Gray, K.W.      397 399
Grid dip meter      see "Dip meter"
Griffiths, E.      506 507
Grunwald, E.      331 335
Grutzner, J.B.      64 75 100 105 307 312
Guenther, B.D.      408 415
Guggenheim, E.A.      186 188 189 196
Gupta, R.K.      44 46 191 196
Gutowsky, H.S.      240 241 324
Gyromagnetic ratio ( $\gamma$ )      4—5 15
Haeberlen, U.      226 226 230 240 276 293 295 295 295 367 399 415
Hahn, E.L.      28 35 123 124 152 156 206 209 250 251 284 289 292
Hallenga, K.      485 486
Hansen, J.R.      324
Hardy, W.N.      399
Harris, R.K.      102 106
Hart, J.      499 505
Hartmann — Hahn condition      288—289
Hartmann, S.R.      246 246 247 250 251 284 289 292
Hatch, G.F.      473 474
Heatley      186 196
Hebel, L.C.      274 275
Hecht, H.G.      239 240
Hester, R.K.      117 120
Hill, H.D.W.      101 105 116 116 122 122 173 176
Homogeneous lines      218—219
Homospoil pulse      123
Hoult, D.I.      63 75 303 312 327 330 383 385 386 388 391 392
Hubbard, P.S.      135 135
Huber, L.M.      295 367 399 415
Hughes, D.G.      138 139 239 240
Husa, D.L.      398 400
if      305
Inductors, variable      407
INEPT      291
Inhomogeneous lines      218—226
IRSE (inversion recovery spin echo)      113
Ishol, L.M.      156 156
J-cross polarization      291
Jeener echo      250 256—261
Jeener, J.      247 251 256 261
Jeffrey, K.R.      398 400 467
Jensen, R. A.      415
Jensen, S.J.K.      201
Jesson, J.P.      57 60 103 106
Johannesen, R.B.      71 75
Johnson, L.F.      196
Jolley, K.W.      208
Jones, G.P.      247 247 251 251 376 385 485 486
Jones, W.H., Jr.      226 226
Jumper, C.F.      335
Karlicek, R.F., Jr.      206 209 367 367 479 479
Kaufmann, E.N.      329 330
Kempsell, S.P.      463
Kendrick, R.D.      489 490
Kessemeier, H.      282 282
Kisman, K.E.      391 392
Kivelson, D.      201
Klein, M.P.      181 393 400
Kneissel, G.      106
Koenig, S.H.      485 486
Konijnendijk, J.      261
Kowalewski, G.C.      188 196
Kreilick, R.W.      474
Kunz, S.D.      64 76
Lahajnar, G.      154 156
Landau, L.D.      274 275
Landee, R.W.      379 385
Larmor frequency      5
Larmor relation      4 7 15
Larmor speed      4—6
Larmor theorem      see "Larmor relation"
Lattice      7
Lauterbur, P.C.      275 278
Least squares fit      482
Led, J.J.      105 106
Lee, K.      152 438 445 501 513
Lee, M.      292 295
Level shifter/buffer      363—364
Levine, Y.K.      255
Levitt, M.H.      462 463 463
Levy, G.C.      140 150 163 164 176 180 181 182 185 196
Lifshitz, E.M.      274 275
Lightowlers, D.      255
Lindblom, G.      138 139

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