How heat propagates in normal liquid ³He скачать в хорошем качестве

How heat propagates in normal liquid ³He

Kamran Behnia (ESPCI- Paris, FRANCE) gives a webinar on 'How heat propagates in normal liquid ³He' Landau’s theory of Fermi liquids was inspired by the case of liquid 3He. Thermal conductivity of 3He [1] conforms to this theory but contrary to a common belief, only at very low temperatures. The deviation from the expected temperature dependence can be explained by assuming that Landau’s quasi-particles are not the only players and there is another contribution to heat transport by a collective sound mode [2]. In the hydrodynamic limit when the scattering rate is larger than frequency, the celebrated zero sound [3] cannot be distinguished from the first sound. The empirical expression for this second channel of heat transport looks like a quantum version of the Bridgman equation for thermal conductivity of classical liquids [4]. A collective mode may also be relevant to transport in strongly correlated metallic Fermi liquids whose resistivity deviates from a quadratic behavior well below the Fermi degeneracy temperature. [1] D. S. Greywall, Phys. Rev. B 29, 4933 (1984). [2] K. Behnia & K. Trachenko, Nature Commun. 15, 1771 (2024). [3] F. Albergamo et al., Phys. Rev. Lett. 99, 205301 (2007). [4] P. W. Bridgman, P. W. Proc. Am. Acad. Arts Sci. 59, 141–169 (1923).