Read more
List of contents
1. Adiabatic Rapid Passage.
2. Apodisation.
3. Baseline Correction.
4. Bilinear Rotation Decoupling.
5. Bloch-Siegert Effect.
6. Broadband Decoupling.
7. Chemical Exchange.
8. Chemically-Induced Nuclear Polsarization.
9. Coherence.
10. Coherent Decoupling Composite Pulses.
11. Continuous-Wave Spectroscopy.
12. Convolution.
13. Cooley-Tukey Algorithm.
14. Correlation Spectroscopy.
15. Difference Spectroscopy.
16. Digitization.
17. Field/Frequency Regulation.
18. Fourier Transformation.
19. Free Induction Decay.
20. Hartmann-Hahn Experiment.
21. Intensities.
22. J-Spectroscopy.
23. Lineshapes in Two-Dimensional Spectra.
24. Maximum Entropy Method.
25. Measurement of Coupling Constant.
26. Multiple-Quantum Coherence.
27. Multiplicity Determination.
28. Nuclear Overhauser Effect.
29. Nuclear Susceptibility.
30. Phase Cycling.
31. Polarization Transfer.
32. Product Operator Formalism.
33. Pulsed Field Gradients.
34. Quadrature Detection.
35. Radiation Damping.
36. Radiofrequency Pulses.
37. Resolution Enhancement.
38. Rotating Frame.
39. Sampling Spinning.
40. Saturation Transfer.
41. Selective Decoupling.
42. Selective Excitation.
43. Sensitivity.
44. Sensitive.
45. Enhancement.
46. Solvent Suppression.
47. Spin Echoes.
48. Spin-Lattrice Relaxation.
49. Spin-Locking.
50. Spin-Spin Relaxation.
51. Spin Tickling.
52. Stead-State Effects.
53. Stochastic Excitation.
54. t1 Noise.
55. Time Averaging.
56. Transient Nutations.
57. Two-Dimensional Spectroscopy.
58. Vector Model.
59. Zero-Filling.
Summary
This new edition has been thoroughly revised to bring the handbook up-to-date.
