Liouvillian gap and out-of-equilibrium dynamics of a sunburst Kitaev ring: from local to uniform dissipation

Abstract

We consider an open quantum system composed of a (1+1)-dimensional Kitaev ring coupled with the environment via n particle-loss dissipators in a sunburst geometry. We describe the out-of-equilibrium dynamics of the whole apparatus in terms of Lindblad master equations and focus on the scaling behavior of the Liovillian gap λ with the system size L. We unveil different regimes, which depend primarily on the number of dissipation sources considered in the large-size limit and the dissipation strength w, which may be either fixed or attenuated to zero as w1/L. In the second part, we develop a dynamic Finite-Size Scaling framework close to Continuous Quantum Transitions to monitor the time evolution of the critical correlations and the entanglement entropy, emphasizing the role of λ in this regime.