Driven Dissipative d-Wave Pairing of Atomic Fermions
Fri, 2010-10-15 10:18 - Donatella Rosetti
Date:
2010-07-20
Reference:
S. Diehl, W. Yi, A. J. Daley, P. Zoller
http://arxiv.org/abs/1007.3420
We show how dissipative dynamics can give rise to pairing for two-component fermions on a lattice. In particular, we construct a "parent" Liouvillian operator so that a BCS-type state of a given symmetry, e.g. a d-wave state, is reached for arbitrary initial states in the absence of conservative forces. The system-bath couplings describe single-particle, number conserving and quasi-local processes. The pairing mechanism crucially relies on Fermi statistics. We show how such Liouvillians can be realized via reservoir engineering with cold atoms representing a driven dissipative dynamics.
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