Aharon Kapitulnik, Nadya Mason, Steven A. Kivelson, Sudip Chakravarty
Published 2000-09-13Version 1
We discuss the effect of dissipation on quantum phase transitions. In particular we concentrate on the Superconductor to Insulator and Quantum-Hall to Insulator transitions. By invoking a phenomenological parameter $\alpha$ to describe the coupling of the system to a continuum of degrees of freedom representing the dissipative bath, we obtain new phase diagrams for the quantum Hall and superconductor-insulator problems. Our main result is that, in two-dimensions, the metallic phases observed in finite magnetic fields (possibly also strictly zero field) are adiabatically deformable from one to the other. This is plausible, as there is no broken symmetry which differentiates them.
Comments: 13 pages, 4 figures
Sliding Wigner crystals in bilayer graphene at zero and finite magnetic fields
Oscillations of the magnetic polarization in a Kondo impurity at finite magnetic fields
Loss and decoherence at the quantum Hall - superconductor interface
