New approaches to ultrasensitive magnetic resonance

Creators: Bowers, C. R.; Buratto, S. K.; Carson, P. J.; Cho, H. M.; Hwang, J. Y.; Mueller, L. J.; Pizarro, P. J.; Shykind, D. N.; Weitekamp, D. P.

Other:: Fearey, Bryan L.

Abstract

Spectroscopic methods tend to exhibit an inverse correlation between sensitivity and the ability to discriminate between similar structures. Were they obtainable with adequate sensitivity, magnetic resonance spectra could resolve structural controversies involving the nature of clusters, ions, semiconductor defects and catalytic intermediates. This paper describes several novel approaches to magnetic resonance, which have in common that the spins are coupled to other degrees of freedom in order to obtain nonequilibrium polarization and/or greater detection sensitivity. The methods under development include single-ion electron spin resonance (ESR) detected by ion trapping frequencies, catalyst NMR detected by the branching ratio to different spin symmetry species, and semiconductor nuclear magnetic resonance (NMR) detected via the circular polarization of luminescence.

Additional Information

© 1991 Society of Photo-Optical Instrumentation Engineers (SPIE). This work was supported by the Beckman Institute at Caltech, the National Science Foundation (CHE—9005964), and the Caltech Consortium in Chemistry and Chemical Engineering: Founding Members: E.I. du Pont de Nemours and Company, Inc. , Eastman Kodak Company, and Minnesota Mining and Manufacturing Company. J.Y.H., P.J.P. and L.J.M are NSF Graduate Fellows. H.M.C is a Bantrell Fellow. S.K.B is an AT&T—Bell Laboratories Ph.D Scholar. D.P.W. is a Camille and Henry Dreyfus Teacher—Scholar.

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