Abstract
NMR/ON has been observed for206BiNi with samples prepared by implantation at T<0.2 K and at room temperature. The integrated destruction of anisotropy for the sample implanted at 290 K is only about half of that for the on-line implanted sample but the resonance line is less broad and has a narrow component with centre frequency νL= 223.62(10) MHz for zero external field. With the known g-factor of206Bi we derive from this frequency the hyperfine field of BiNi as Bhf=38.3(4) T.
Similar content being viewed by others
References
P.T. Callaghan, P. Kittel, N.J. Stone and P.D. Johnston, Phys.Rev. B14(1976)3722
M. Kaplan, P.D. Johnston, P. Kittel and N.J. Stone, Phys.Lett. 41A(1972)315
M. Kaplan, P.D. Johnston, P. Kittel and N.J. Stone, Nucl.Phys. A212(1973)478
E. Hagn, private communication
P. Herzog, invited paper to this conference
P. Herzog, H. Walitzki, K. Freitag, H. Hildebrand and K. Schlösser, Z.Phys. A311(1983)351
P. Herzog, H.-R. Folle, K. Freitag, A. Kluge, M. Reuschenbach and E. Bodenstedt, Nucl.Instr. 155(1978)421
I. Lindgren and C.M. Johansson, Arkiv Fysik 15(1959)445
G.A. Gehring and H.C.W.L. Williams, J.Phys. F4(1974)291
E. Hagn, K. Leuthold, E. Zech and H. Ernst, Z.Phys. A295(1980)385
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Herzog, P., Dämmrich, U., Freitag, K. et al. NMR/ON of206Bi implanted at T < 0.2 K and at room temperature into nickel. Hyperfine Interact 22, 173–176 (1985). https://doi.org/10.1007/BF02063989
Issue Date:
DOI: https://doi.org/10.1007/BF02063989