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TT: Tiefe Temperaturen
TT 14: Postersitzung II: Korrelierte Systeme(1-40), Theorie der Supraleitung(41-50), Metall-Isolator-Übergang, Lokalisierung(51-66), Niederdimensionale Systeme, Quantenhalleffekt(67-80), Pinning, kritische Ströme und Vortexdynamik(81-93), HTSL-Drähte und -Bänder(94-98), Massive HTSL(99-104), supraleitende Borkarbide(105-109)
TT 14.81: Poster
Mittwoch, 19. März 1997, 15:00–18:30, Z1
Phonon density of states and specific heat anomaly in K0.3MoO3 — •Herwig Requardt1,2, Roland Currat1, Pierre Monceau2, and Emilio Lorenzo3 — 1Institut Laue Langevin, BP 156, F–38042 Grenoble — 2CRTBT - CNRS, BP 166, F–38042 Grenoble — 3Lab. de Cristallographie - CNRS, BP 166, F–38042 Grenoble
In the quasi-one-dimensional (Q1D) charge-density-wave (CDW) systems (TaSe4)2I, K0.3MoO3 and KCP, an anomaly of the specific heat CP at temperatures of several Kelvin has been observed (Lasjaunias et al.). In contrast to an earlier interpretation of these anomalies as originating from phason–like excitations of the CDW, Lorenzo et al.[1] recently related the CP–anomaly in the case of (TaSe4)2I to the 1D–character of the acoustic phonon dispersion curves. To determine the origin of the CP–anomaly in the case of K0.3MoO3, we performed time-of-flight neutron scattering measurements to determine the generalized phonon density of states (PDOS). At low energies the PDOS shows an excess to a Debye-law, which gives rise to the observed anomalous specific heat behavior. Based on the acoustic phonon dispersion curves measured by Pouget et al.[2] we calculated the low–energy PDOS of the system, using a simplified model. The model succeeds in reproducing the low–energy excess PDOS and establishes the phononic origin of the observed specific heat anomaly.
[1] J.E.Lorenzo et al., Phys. Rev. B 53, 8316 (1996)
[2] J.P.Pouget et al., Phys. Rev. B 43, 8421 (1991)