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The role of magnetic excitations in the thermal conductivity of the frustrated spin system Cu2Te2O5(Cl2-xBrx) system (CROSBI ID 514245)

Prilog sa skupa u zborniku | sažetak izlaganja sa skupa | međunarodna recenzija

Bilušić, Ante ; Smontara, Ana ; Smiljanić, Igor ; Jagličić, Zvonko ; Dolinšek, Janez ; Berger, Helmuth The role of magnetic excitations in the thermal conductivity of the frustrated spin system Cu2Te2O5(Cl2-xBrx) system // Highly Frustrated Magnetism / Bramwell, S ; Keren, A ; Mila, F. (ur.). Pariz: Centre National de la Recherche Scientifique, 2005. str. 62-62-x

Podaci o odgovornosti

Bilušić, Ante ; Smontara, Ana ; Smiljanić, Igor ; Jagličić, Zvonko ; Dolinšek, Janez ; Berger, Helmuth

engleski

The role of magnetic excitations in the thermal conductivity of the frustrated spin system Cu2Te2O5(Cl2-xBrx) system

Insulating copper-tellurides of the general formula Cu2Te2O5(Cl2-xBrx) belong to the class of geometrically frustrated spin systems due to the tetrahedral arrangement of Cu2+ ions [1]. Specific heat [2] and magnetic susceptibility data [2, 3] show that between 11.4 K and 18.2 K (depending on the Br content) copper-tellurides exhibit a magnetic phase transition. A long-range spin-ordered state is formed below the transition temperature, as proven by the Raman [4, 5] and neutron [6] experiments. We present the thermal conductivity data of copper-tellurides Cu2Te2O5(Cl2-xBrx), with x=0, 0.5, 1, and 2. For temperatures higher than the transition temperature, thermal conductivity has a rather low value. Numerical analysis of the thermal conductivity curves, based on of the Debye model, show that a resonant magneto-elastic coupling takes part in the phonon scattering. Below the transition temperature, thermal conductivitie rapidly increases with decreasing temperature. We propose, that after a formation of the long-range spin ordered state a magneto-elastic resonant scattering is switched off, leading to the enhanced thermal conductivity. Renormalization of the thermal conductivity data show that the thermal conductivity enhancement is the most pronounced in the x=2 system, and is lowered as the Br-content is reduced.

copper-tellurides; frustrated spin systems; magnetic phase transition; thermal conductivity

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Podaci o prilogu

62-62-x.

2005.

objavljeno

Podaci o matičnoj publikaciji

Highly Frustrated Magnetism

Bramwell, S ; Keren, A ; Mila, F.

Pariz: Centre National de la Recherche Scientifique

Podaci o skupu

ESF Workshop "Highly Frastrated Magnetism"

pozvano predavanje

07.11.2005-09.11.2005

La Londe-les-Maures, Francuska

Povezanost rada

Fizika

Poveznice