Abstract
Measurements are reported of the influence of the nuclear Zeeman effect and other perturbing factors upon the Mossbauer effect in Zn/sup 67/ embedded in an enriched ZnO absorber lattice at temperatures below the helium lambda transition (2.175 deg K). Ways in which the design of the experiment are affected by various perturbations are described. The resonance absorption pattern for the 93-kev line of Zn/sup 67/ as a function of the magnetic field is given including corrections for background and unresolved gamma rays of 30%. The major structural feature of the curve lies in the fact that the maximum resonance does not occur at zero field but is shifted to approximately 10 gauss. A plausible explanation for this is that chemical shifts are superimposed upon the isotopic mass effect. (B.O.G.)
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