Abstract

Although ¹³C has a natural abundance of only 1.1% and gives inherently much weaker nuclear magnetic resonance signals than does does ¹H, it has been found that ¹³C nuclear magnetic resonance spectra of aqueous solutions of naturally occurring proteins can be observed. A spectrum of hen's egg white lysozyme, an enzyme of molecular weight approximately 14 300, containing 129 amino acid residues, has been partially analyzed by comparison with a computer-simulated spectrum.

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)

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)

Three-dimensional protein shape rendering in magnetized solution with Lambert—Beer law

HongYan Gu and WeiShan Chang
Appl. Opt. 51(20) 4827-4832 (2012)

Large-aperture single-mode 795 nm VCSEL for chip-scale nuclear magnetic resonance gyroscope with an output power of 4.1 mW at 80 °C

Yinli Zhou, Yuchen Jia, Xing Zhang, Jianwei Zhang, Zhanchao Liu, Yongqiang Ning, and Lijun Wang
Opt. Express 30(6) 8991-8999 (2022)