Physics of the Solid State
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Ion-irradiation effect on electron transport in YBCO thin films
Antonov A. V.1, Masterov D.V. 1, Mikhaylov A. N. 2, Morozov S. V. 1, Pavlov S.A.1, Parafin A.E. 1, Tetelbaum D. I. 2, Ustavschikov S.S.1,2, Yunin P.A.1,2, Savinov D.A. 1,2
1Institute for Physics of Microstructures, Russian Academy of Sciences, Nizhny Novgorod, Russia
2Lobachevsky State University, Nizhny Novgorod, Russia
Email: masterov@ipmras.ru, mian@nifti.unn.ru, more@ipmras.ru, pavlov@ipmras.ru, parafin@ipmras.ru, tetelbaum@phys.unn.ru, savinovda@ipmras.ru

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The disorder effect on superconducting properties of thin-film YBCO nanostructures in external magnetic fields is experimentally studied. The disorder was produced by irradiation with xenon ions. The research included transport measurements of narrow bridges based on HTSC YBCO films (thickness 50 nm) in strong magnetic fields (up to 12 T). Thus, for samples with different degrees of disorder, critical dependences have been studied, i.e. the Hc2(T) phase-transition line, the Hirr(T) irreversibility line, etc. The dependences of the mean-free path and critical temperature on the concentration of defects created by ion irradiation have been experimentally studied. The experimental data are described using formulas obtained within the framework of well-known models, such as the Ginzburg-Landau theory, the Drude theory, and the Gorkov equations. Keywords: B HTSP, thin films, ion irradiation, defects, resistive measurements, upper critical field, line of irreversibility, vortices.
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