PARAMAGNETISM OF LIQUID HELIUM THREE
Journal Article
·
· Physical Review (U.S.) Superseded in part by Phys. Rev. A, Phys. Rev. B: Solid State, Phys. Rev. C, and Phys. Rev. D
The elaboration of a theoretical model describing the paramagnetic properties of liquid Heg throughout the region of existence of this phase is presented. The model is based on a molecular field theoretical type of approach. The ratios of the actual paramagnetic susceptibility of liquid He/sup 3/ to the one it would have if it were an ideal paramagnet are predicted to be representable through a unique function depending on the reduced temperature variable. The latter contains the characteristic temperature of the nuclear spin system, which, at the present time, is only available empirically through the susceptibility ratio data. In the susceptibility ratio-reduced temperature representation all susceptibility ratios of liquid He/sup 3/ fall on a single curve. This theoretical ratio curve describes very closely the experimental ratios up to values of the reduced temperature of 0.90 --1.0. Beyond this range the experimental susceptibility ratios become systematically larger than the calculated ratios, the differences between them being small. Quantitative arguments are advanced that appear to explaln satisfactorily these discrepancies and to indicate that the theory should be valid throughout the whole range of the natural reduced temperature variable. The spin entropyspin susceptibility relation, established and used previously, yields, with the theoretical paramagnetism model, rigorous lower limits of the entropy, heat capacity, and expansion coefficient of the liquid throughout the region of existence of this phase. With the recent extension of the melting pressure data to quite low temperatures, the rigorous spin entropy of the liquid along the melting line allows one to estimate the entropy of the solid along the melting line and at low temperatures. Here the solid entropy turns out to be less than R In2, per mole, yielding the temperature of its heat capacity anomaly to be below one hundredth of a degree Kelvin. The discussion of the liquid He/sup 3/-solid He/sup 3/ equilibrium, on the basis of these results, seems to render questionable any analysis of the thermal properties of the solid that ignores the existence of its nuclear spin system even at medium temperatures. A semiquantitative description of the entropy-pressure diagram of He/sup 3/ discloses various singular characteristics of the liquid entropy along the melting line in its pressure dependence, as well as the peculiar features of the solid entropy at and around the melting pressure anomaly. (auth)
- Research Organization:
- Los Alamos Scientific Lab., N. Mex.
- NSA Number:
- NSA-18-005923
- OSTI ID:
- 4132817
- Report Number(s):
- LADC-5827; 0031-899X
- Journal Information:
- Physical Review (U.S.) Superseded in part by Phys. Rev. A, Phys. Rev. B: Solid State, Phys. Rev. C, and Phys. Rev. D, Journal Name: Physical Review (U.S.) Superseded in part by Phys. Rev. A, Phys. Rev. B: Solid State, Phys. Rev. C, and Phys. Rev. D Vol. Vol: 133; ISSN PHRVA
- Country of Publication:
- United States
- Language:
- English
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