Magnetization Relaxation via Quantum and Classical Vortex Motion in a Bose Glass Superconductor
Abstract
I show that in Bose Glass superconductor with high jc and at low T the magnetization relaxation (S), dominated by quantum tunneling, is jc, which crosses over to the conventional classical rate T/jc at higher T and lower jc, with the crossover T* jc3/2. I argue that due to interactions between flux lines there exist three relaxation regimes, depending on whether B<Bφ, B≈ Bφ, B>Bφ, corresponding to Strongly-pinned Bose Glass (SBG) with large jc2, Mott Insulator (MI) with vanishing S, and Weakly-pinned Bose Glass (WBG) characterized by small jc1. I discuss the effects of interactions on jc and focus attention on the recent experiment which is consistently described by the theory.
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