Kılıç, KıvılcımKılıç, AtillaAltınkök, AtılganYetiş, HakanÇetin, OktayDürüst, Yaşar2021-06-232021-06-2320050921-45341873-2143https://doi.org/10.1016/j.physc.2004.12.014https://hdl.handle.net/20.500.12491/5743In this work, dynamic changes generated by the driving current were studied in superconducting bulk polycrystalline YBCO sample via transport relaxation measurements (V-t curves). The evolution of nonlinear V-t curves was interpreted in terms of the formation of resistive and nonresistive flow channels and the spatial reorganization of the transport current in a multiply connected network of weak-link structure. The dynamic re-organization of driving current could cause an enhancement or suppression in the superconducting order parameter due to the magnitude of the driving current and coupling strength of weak-link structure along with the chemical and anisotropic states of the sample as the time proceeds. A nonzero voltage decaying with time, correlated to the quenched state, was recorded when the magnitude of initial driving current is reduced to a finite value. It was found that, after sufficiently long waiting time, the evolution of the quenched state could result in a superconducting state, depending on the magnitude of the driving current and temperature. We showed that the decays in voltage over time are consistent with an exponential time dependence which is related to the glassy state. Further, the effect of doping of organic material Bis dimethyl-glyoximato Copper (11) to YBCO could be monitored apparently via the comparison of the V-t curves corresponding to doped and undoped YBCO samples.eninfo:eu-repo/semantics/closedAccessGlassy EffectsEvolutionQuenched StateArticle10.1016/j.physc.2004.12.0144201-21102-s2.0-13944267983Q2WOS:000227652900001Q3