The Principles of Nuclear MagnetismClarendon Press, 1961 - 599 Seiten The Principles of Nuclear Magnetism |
Inhalt
GENERAL INTRODUCTION 113 | 3 |
REFERENCES | 17 |
REFERENCES | 38 |
THE PHENOMENOLOGICAL EQUATIONS OF BLOCH | 44 |
Modified Bloch equations in low fields | 53 |
DETECTION METHODS | 71 |
Transient methods of detection | 86 |
APPENDIX Proof of the KramersKrönig relations | 93 |
d Relaxation through anisotropic chemical shift combined | 315 |
COMPARISON BETWEEN THEORY AND EXPERIMENT | 323 |
Electric quadrupole relaxation in liquids | 346 |
REFERENCES | 353 |
NUCLEAR RELAXATION CAUSED BY FIXED PARAMAG | 378 |
B Comparison with experiment | 386 |
B Dynamic polarization by fixed paramagnetic impuritiessolid state | 392 |
RELAXATION BY THERMAL VIBRATIONS IN A CRYSTAL | 401 |
DIPOLAR LINE WIDTH IN A RIGID LATTICE | 97 |
BROADENING BY LIKE SPINS | 103 |
Calculation of the second and fourth moments | 111 |
DIPOLAR BROADENING BY UNLIKE SPINS | 122 |
MODIFICATIONS IN THE DIPOLAR BROADENING CAUSED | 128 |
REFERENCES | 158 |
MAGNETIC INTERACTIONS | 170 |
The effect of electronnucleus coupling in paramagnetic substances | 191 |
Nuclear resonance in antiferromagnetic and ferromagnetic | 210 |
QUADRUPOLE EFFECTS | 216 |
REFERENCES | 263 |
B Definitions | 270 |
Motion of a system subject to a perturbation which is a random | 272 |
Quantum mechanical formulation of the problem | 283 |
E Relaxation by dipolar coupling | 289 |
F Other mechanisms of relaxation in liquids | 305 |
Magnetic and quadrupole relaxation by spinphonon coupling | 409 |
Ultrasonic experiments | 417 |
REFERENCES | 423 |
REFERENCES | 479 |
REFERENCES | 510 |
THE EFFECTS OF STRONG RADIOFREQUENCY | 511 |
B Viscous liquids | 517 |
Decoupling of spins through stirring by a radiofrequency field | 527 |
STRONG RADIOFREQUENCY FIELDS IN SOLIDS | 539 |
B Spin temperature in the rotating frame reversible fast passage | 545 |
Spin temperature in the rotating frame steadystate solutions | 555 |
E Double irradiation methods | 566 |
REFERENCES | 580 |
591 | |
Andere Ausgaben - Alle anzeigen
Häufige Begriffe und Wortgruppen
absorption adiabatic amplitude applied field approximation assume assumption atoms Bloch equations broadening calculation Chapter chemical shift coil components computed constant correlation crystal curve d.c. field density matrix described detection dipolar coupling echo eigenstates electron spin energy levels expectation value experiment experimental field H flip formula free precession G₁(t gauss given gradient H₁ H₂ Hamiltonian hyperfine hyperfine structure inhomogeneity interaction Larmor frequency lattice line width M₁ M₂ magnetic field magnitude matrix elements Mc/s measured method molecule motion nuclear magnetism nuclear resonance nuclear spins nucleus observed obtained operator orbital oscillation paramagnetic perturbation Phys polarization proportional protons pulse quadrupole r.f. field random ratio relaxation mechanism resonance line rotating frame sample saturation scalar signal spectrum spin system spin temperature spin-lattice relaxation spin-spin steady-state T₁ T₂ tensor theory thermal equilibrium tion transition probability transverse magnetization vector w₁ wave function zero
Verweise auf dieses Buch
Principles of Nuclear Magnetic Resonance in One and Two Dimensions Richard R. Ernst,Geoffrey Bodenhausen,Alexander Wokaun Keine Leseprobe verfügbar - 1990 |
Dynamic Light Scattering: With Applications to Chemistry, Biology, and Physics Bruce J. Berne,Robert Pecora Eingeschränkte Leseprobe - 2000 |