"Nuclear Zeeman Effect in W182 in Iron" by Richard B. Frankel

Selected Works of Richard B. Frankel

Article

Nuclear Zeeman Effect in W182 in Iron

Physical Review

Richard B. Frankel, Massachusetts Institute of Technology
Y. Chow, Massachusetts Institute of Technology
L. Grodzins, Massachusetts Institute of Technology
J. Wulff, Massachusetts Institute of Technology

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Publication Date

10-10-1969

Abstract

The Mössbauer effect in the 100-keV 2+→0+ transition in W182 was observed with dilute tungsten in iron alloy absorbers with concentrations from 0.5-5.0 at.%W at 4.2°K. From the Zeeman spectra in external longitudinal magnetic fields, the g factor of the first excited 2+ state was found to be 0.22±0.02, and the hyperfine field at tungsten nuclei in iron was found to be -708±25 kOe. The hyperfine interaction for Fe57 in these alloys was also measured, and the results are compared with measurements on alloys of Fe with other 5d impurities and with neutron diffraction measurements.

Disciplines

Physics

1969 American Physical Society.

Publisher statement

This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Physical Society. The following article appeared in Physical Review.

Citation Information

Richard B. Frankel, Y. Chow, L. Grodzins and J. Wulff. "Nuclear Zeeman Effect in W182 in Iron" Physical Review Vol. 186 Iss. 2 (1969) p. 381 - 386
Available at: http://works.bepress.com/rfrankel/15/