Abstract
Nuclear magnetic resonance of82Br oriented at low temperature in iron has been observed with a sample prepared by ion implantation atT<0.2 K. The asymmetric resonance signal can be decomposed in a broad background signal and a narrow line of FWHM=1.8 (4) MHz which can be attributed to82Br in undisturbed substitutional sites of Fe. From the center frequency of this narrow line ν (B ext=0)=201.86(13) MHz we derive the magnetic hyperfine field asB hf(BrFe)=81.38(6) T. This value is considerably larger than the result of theoretical calculations.
Similar content being viewed by others
References
Rao, G.N.: Hyperfine Interact.24–26, 1119 (1985)
Callaghan, P.T., Stone, N.J., Alexander, R.B.: Hyperfine Interact.3, 267 (1977)
Alexander, R.B., Callaghan, P.T., Poate, J.M.: Phys. Rev.B 9, 3022 (1974)
Herzog, P., Folle, H.-R., Freitag, K., Kluge, A., Reuschenbach, M., Bodenstedt, E.: Nucl. Instrum.155, 421 (1978)
Fleming, J.F., Auble, R.L.: Nucl. Data Sheets15, 315 (1975)
James, P.K., Herzog, P., Stone, N.J., Freitag, K.: Phys. Rev.B 13, 59 (1976)
Steffen, R.M., Alder, K.: In: The electromagnetic interaction in nuclear spectroscopy. Hamilton, W.D. (ed.), p. 505. Amsterdam: North-Holland 1975
Herzog, P.: Hyperfine Interact.8, 215 (1980)
Herzog, P.: Hyperfine Interact.22, 151 (1985)
Herzog, P., Dämmrich, U., Freitag, K., Herrmann C.-D., Schlösser, K.: Hyperfine Interact.22, 167 (1985)
Table of Isotopes. 7th Edn. Appendix VII, Lederer C.M., Shirley, V.S. (eds). New York: John Wiley & Sons 1978
Kanamori, J., Yoshida, H.K., Terakura, K.: Hyperfine Interact.9, 363 (1981)
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Herzog, P., Dämmrich, U., Freitag, K. et al. The magnetic hyperfine field of bromine in iron by NMR/ON. Z. Physik B - Condensed Matter 64, 353–356 (1986). https://doi.org/10.1007/BF01303605
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF01303605