O. O. Romantsova scite author profile

O. O. Romantsova

3Publications

110Citation Statements Received

85Citation Statements Given

How they've been cited

137

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Affiliations

B. Verkin Institute for Low Temperature Physics and Engineering, National Academy of Sciences of Ukraine

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Thermal conductivity of Xe clathrate hydrate at low temperatures

et al. 2006

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The effective thermal conductivity of the powder samples of xenon hydrate was measured in the interval 2 -170 K using the steady-state method. The thermal conductivity of the homogeneous Xe clathrate hydrate was estimated from the effective thermal conductivity using an empirical expression. The applicability of the formula was checked by comparing two powder samples with different grain size and porosity. The temperature dependence of the thermal conductivity ͑T͒ϳT n of Xe clathrate hydrate is divided into four distinct temperature regimes ͑I-IV͒ with different n. In the interval 55-97 K ͑III͒ the behavior of ͑T͒ shows an anomaly, where the thermal conductivity decreases by almost 50% as the temperature increases. This observation is attributed to the resonant scattering where the coupling of the lattice with "rattling" motions of Xe atom dominates the thermal resistivity at high temperature. Since the observed vibrational energy of Xe in the small cages is ϳ4 meV ͑or Ϸ46 K͒ the resonant scattering contribution to the thermal resistivity is expected to decrease in an interval of comparable temperature. The thermal conductivity in the low temperature regime ͑regimes I and II͒ is found to follow the prediction of the soft-potential model. The data on thermal conductivities of several gas clathrate hydrates are compared.

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Thermal conductivity of tetrahydrofuran hydrate

Кривчиков

Manzheliı̆

Korolyuk

et al. 2005

Phys. Chem. Chem. Phys.

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The thermal conductivity of tetrahydrofuran hydrate has been measured in the temperature region 2-220 K by the steady-state potentiometric method. The temperature dependence of the thermal conductivity exhibits behavior typical of amorphous substances. It is shown that above 100 K the mean free path of the phonons is considerably smaller than the lattice parameter and is no longer dependent on temperature.

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Glassy anomalies in the heat capacity of an ordered 2-bromobenzophenone single crystal

et al. 2018

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O. O. Romantsova

Thermal conductivity of Xe clathrate hydrate at low temperatures

Thermal conductivity of tetrahydrofuran hydrate

Glassy anomalies in the heat capacity of an ordered 2-bromobenzophenone single crystal

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