Superfluid interfaces in quantum solids
ORAL
Abstract
One scenario for the non-classical moment of inertia of solid $^4$He discovered by Kim and Chan [{\it Science}, {\bf 305}, 1941 (2004)] is the superfluidity of micro-crystallite interfaces. On the basis of the most simple model of a quantum crystal---the checkerboard lattice solid---we show that the superfluidity of interfaces between solid domains can exist in a wide range of parameters. At strong enough inter-particle interaction, a superfluid interface becomes an insulator via a quantum phase transition. Under the conditions of particle-hole symmetry, the transition is of the standard $U(1)$ universality class in $d=3 $, while in $d=2$ the onset of superfluidity is accompanied by the interface roughening, driven by fractionally charged topological excitations.
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Authors
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Evgeni Burovski
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Evgeni Kozik
Univ. of Massachusetts, Amherst
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Anatoly Kuklov
CSI, CUNY, CUNY-Staten Island, The College of Staten Island, CUNY
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Nikolay Prokof'ev
Dept. of Physics, UMASS, Amherst; "Kurchatov Institute", Moscow, University of Massachusetts, Department of Physics, University of Massachusetts, MA 01003; Russian Research Center ``Kurchatov Institute", 123182 Moscow, Russia
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Boris Svistunov
UMASS, Amherst, and Kurchatov Institute, Moscow, University of Massachusetts, Amherst, Univ. of Massachusetts, Amherst, University of Massachusetts, Department of Physics, University of Massachusetts, MA 01003; Russian Research Center ``Kurchatov Institute", 123182 Moscow, Russia