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Orientational quadrupolar glass in ortho-para hydrogen mixtures. II. Comparison with experiment

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Abstract

A comparative analysis of experimental data on the orientational order parameter, heat capacity and Grüneisen parameter with those predicted by the mean-field microscopic theory given in the accompanying paper is carried out. The orientation-motion freezing mechanisms driven by the strain, quadrupolar and reaction fields are identified. It is proved that within the quadrupolar glass (QG) phase the random-site effects dominate over randombond dilution effects. The entry to the QG phase is characterized by the freezing temperature, at which the total intrinsic field disappears. The QG ground-state distribution function known from NMR spectroscopy is proposed.

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Author notes

  1. V. B. Kokshenev

    Present address: Institute for Low Temperature Physics and Engineering of the Academy of Science of Ukraine, 310164, Kharkov, Ukraine

Authors and Affiliations

  1. ICEX, Departamento de Fisica, Universidade Federal de Minas Gerais, C.P. 702, CEP 30161-970, MG, Brazil

    V. B. Kokshenev

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Kokshenev, V.B. Orientational quadrupolar glass in ortho-para hydrogen mixtures. II. Comparison with experiment. J Low Temp Phys 104, 25–48 (1996). https://doi.org/10.1007/BF00754088

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  • DOI: https://doi.org/10.1007/BF00754088

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