Tailored jump operators for purely dissipative quantum magnetism
arXiv:1608.02593 · doi:10.1088/1361-6455/50/2/024001
Abstract
I propose an archtitecture for the realization of dissipative quantum many-body spin models. The dissipative processes are mediated by interactions with auxiliary particles and lead to a widely tunable class of correlated quantum jump operators. These findings enable the investigation of purely dissipative spin models, where coherent dynamics is entirely absent. I provide a detailed review of a recently introduced variational method to analyze such dissipative quantum many-body systems, and I discuss a specific example in terms of a purely dissipative Heisenberg model, for which I find an additional disordered phase that is not present in the corresponding ground state phase diagram.
9 pages, 4 figures, submitted to J. Phys. B. Special Issue "Emerging Leaders"