Electron-spin resonance of rare earths in aluminum

The electron-spin resonance of Gd, Dy, and Er has been observed in dilute Al-based alloys. From the temperature-dependent linewidth and the sign of the g shift, a value of the exchange integral Jf-s=+0.11±0.02 eV was extracted for Al: Dy and Al: Er. This value is in agreement with that extracted from the reduction of Tc in Al: Er, on the assumption of little influence of the crystalline field. The more concentrated Al: Gd alloys exhibited a strong magnetic-resonance bottleneck, which was partially opened by (i) reduction of the Gd concentration and (ii) by introducing a third element. The exchange integral was found to equal Jf-s=+0.17±0.03 eV for Al: Gd, and values were obtained for the spin-lattice relaxation rate of the conduction electrons from band effects, the Gd impurities themselves, and the third elements (Ag, Au). A "residual" positive g shift Δg1=+0.05 was noted for Al: Gd (as well as for a number of other dilute Gd alloys), and is tentatively attributed to polarization of the screening electrons of d-like character.