Abstract

Techniques for studying high resolution nuclear magnetic resonance spectra have been considerably broadened in recent years. The most far reaching development—pulse Fourier transform (FT) methods—is discussed in detail. Applications of FT techniques to measurement of relaxation times and to enhancement of weak signals, especially from natural abundance ¹³C, are reviewed. Double resonance methods, particularly the nuclear Overhauser effect, and the use of lanthanide shift reagents are also covered in this "mini-review."

Nuclear magnetic resonance imaging

William P. Rothwell
Appl. Opt. 24(23) 3958-3968 (1985)

Electro-mechano-optical detection of nuclear magnetic resonance

Kazuyuki Takeda, Kentaro Nagasaka, Atsushi Noguchi, Rekishu Yamazaki, Yasunobu Nakamura, Eiji Iwase, Jacob M. Taylor, and Koji Usami
Optica 5(2) 152-158 (2018)

Methods and algorithms for Fourier-transform nuclear magnetic resonance tomography

Z. H. Cho, O. Nalcioglu, and H. W. Park
J. Opt. Soc. Am. A 4(5) 923-932 (1987)

Optical nuclear magnetic resonance: theory, simulation, and animation

Myron W. Evans and Chris R. Pelkie
J. Opt. Soc. Am. B 9(7) 1020-1029 (1992)

Dimension analysis of a chaotic nuclear magnetic resonance laser

M. Ravani, B. Derighetti, G. Broggi, E. Brun, and R. Badii
J. Opt. Soc. Am. B 5(5) 1029-1036 (1988)