Further investigations on the nuclear relaxation in an antiferromagnetic single crystal

The proton spin relaxation time in the antiferromagnetic single crystal of CuC12. 2H,O Was measured in the temperature region of liquid helium. A strong temperature dependence was found, the relaxation time increasing to a few seconds at 1.2°K. Up to 2.5°K the results can be described in terms of a

## Synop sis The threshold field in an antiferromagnetic single crystal of CuC12.2H20 is measured as a function of the temperature. A change in character of the proton magnetic resonance of CuC12.2H20 was used as a criterion for the threshold field phenomenon. The proton resonance in paraffin wax

The magnetic susceptibility of a MnCls. 4H~O single crystal has been measured parallel to its preferred (c-axis) and perpendicular (b-axis) directions of magnetization in the temperature regions of liquid hydrogen and liquid helium. It was found to follow a Curie-Weiss law Z = C/(T + A). The suscept

In the nematic liquid crystal p-mcthoxybenzilidenc-P'-cyanoanIiine (MBC), the angular variation of tlie spin-lattice relaxation time Tl is explzined by collective orientational order fluctuations and tr'ans-1ntiom.l diffusion. The tr'uslationai diffusion relaxation rate. plus the frequency-independe