2012
DOI: 10.1016/j.physc.2011.12.024
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Magnetoresistivity of thin YBa2Cu3O7−δ films on sapphire substrate

Abstract: Magnetoresistivity of YBa2Cu3O7− films with thicknesses between 7 and 100 nm deposited on CeO2 and PrBa2Cu3O7− buffer layers on sapphire substrate has been measured to analyze the temperature dependence of the second critical magnetic field Bc2. To define Bc2, the mean-field transition temperature Tc was evaluated by fitting the resistive transition in zero magnetic field with the fluctuation conductivity theory of Aslamazov and Larkin. At T → Tc the Bc2(T) dependence shows a crossover from downturn to upturn … Show more

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Cited by 2 publications
(4 citation statements)
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“…In Figure 5 we have plotted (red circles) the T 0 C extracted by our YBCO films -bare films above t = 10 nm and Au capped films below t = 10 nm -as a function of the thickness. As discussed earlier the T 0 C slightly dethickness (nm) Terashima et al [12] Chan et al [14] Cieplak et al [13] Savvides et al [43] Tang et al [39] Probst et al [45] Probst et al [53] This work FIG. 5: Zero resistance critical temperature T 0 C of our capped and bare YBCO films versus their thickness (red circles).…”
Section: B Broadening Of the Superconducting Transitionsupporting
confidence: 51%
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“…In Figure 5 we have plotted (red circles) the T 0 C extracted by our YBCO films -bare films above t = 10 nm and Au capped films below t = 10 nm -as a function of the thickness. As discussed earlier the T 0 C slightly dethickness (nm) Terashima et al [12] Chan et al [14] Cieplak et al [13] Savvides et al [43] Tang et al [39] Probst et al [45] Probst et al [53] This work FIG. 5: Zero resistance critical temperature T 0 C of our capped and bare YBCO films versus their thickness (red circles).…”
Section: B Broadening Of the Superconducting Transitionsupporting
confidence: 51%
“…Transport properties of the ultrathin YBCO films have been studied by resistance vs temperature R(T ) measurements. For ultrathin YBCO films, when grown on substrates with a large mismatch (without a PBCO seed layer), a strong reduction of the zero resistance temperature, T 0 C , has been reported [45]. Here we show instead that the T 0 C of our films is higher than the liquid nitrogen temperature down to thicknesses of 10 nm.…”
Section: Ultrathin Films: Transport Characterizationsupporting
confidence: 39%
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