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Please use this identifier to cite or link to this item: https://hdl.handle.net/2445/10658
Magnetic relaxation and quantum tunneling of vortices in polycristalline Hg0.8Tl0.2Ba2Ca2Cu3O8+sigma
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Magnetic relaxation in a polycrystalline Hg0_8Tl0.2Ba2Ca2Cu30s+6 [(Hg,Tll-1223] superconductor was measured in the temperature range 1.85-20 K with different magnetic fields applied during the cooling process. The relaxation curves show a nearly perfect linear ln(t) behavior. The temperature dependence
of the normalized relaxation rate, R = Id (M /M0)/dln(t)I, was studied for two applied magnetic fields. With the lower applied field (H.= 3 kOe), a temperature-independent R is found below 2.1 K and explained in terms of quantum tunneling of vortices. As the applied field increases (H. = 10 kOe), the transition from the thermal to the quantum regime is not found in the experimentally accessible temperature range above 1.85 K. The field dependence of R at 2.8 K is studied in order to analyze the dimensionality
of the flux-line lattice.
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ZHANG, Xixiang, et al. Magnetic relaxation and quantum tunneling of vortices in polycristalline Hg0.8Tl0.2Ba2Ca2Cu3O8+sigma. Physical Review B. 1995. Vol. 52, num. 2, pags. 1325-1330. ISSN 0163-1829. [consulted: 12 of June of 2026]. Available at: https://hdl.handle.net/2445/10658