Numerical linked-cluster expansion for the dissipative XYZ model on a triangular lattice

Abstract: We generalize the numerical linked-cluster expansion (NLCE) method to study the dissipative quantum many-body system. We apply the NLCE to the triangular strip and two-dimensional lattice system. We investigate the dynamics and steady-state properties of the dissipative XYZ model where the coherent dynamics is governed by the anisotropic Heisenberg Hamiltonian while the nonunitary process is induced by the incoherent spin flips. By comparing with the quantum trajectory simulations, the NLCE results show good p… Show more

“…Recently, it is explored that the frustration in many-body system can induce fantastic nontrivial steady-state properties, * Electronic address: jsjin@dlut.edu.cn such as the antiferromagnetism, spin-density wave and chaotic dynamics [34][35][36][37]. The frustration refers to the fact that the competing interactions between neighboring sites cannot be satisfied simultaneously [38][39][40].…”

Steady-state phases of dissipative spin-1/2 XYZ model with frustrated interaction

“…Recently, it is explored that the frustration in many-body system can induce fantastic nontrivial steady-state properties, * Electronic address: jsjin@dlut.edu.cn such as the antiferromagnetism, spin-density wave and chaotic dynamics [34][35][36][37]. The frustration refers to the fact that the competing interactions between neighboring sites cannot be satisfied simultaneously [38][39][40].…”

Steady-state phases of dissipative spin-1/2 XYZ model with frustrated interaction

Nonuniform phases in the geometrically frustrated dissipative XYZ model

Steady-state phases of the dissipative spin- 1/2 XYZ model with frustrated interactions