Liouvillian skin effects and fragmented condensates in an integrable dissipative Bose-Hubbard model

Christopher Ekman, Emil J. Bergholtz
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Abstract

Strongly interacting nonequilibrium systems are of great fundamental interest, yet their inherent complexity make them notoriously hard to analyze. We demonstrate that the dynamics of the Bose-Hubbard model, which by itself evades solvability, can be solved exactly at any interaction strength in the presence of loss tuned to a rate matching the hopping amplitude. Remarkably, the full solvability of the corresponding Liouvillian, and the integrability of the pertinent effective non-Hermitian Hamiltonian, survives the addition of disorder and generic boundary conditions. By analyzing the Bethe ansatz solutions we find that even weak interactions change the qualitative features of the system, leading to an intricate dynamical phase diagram featuring non-Hermitian Mott-skin effects, disorder induced localization, highly degenerate exceptional points, and a Bose glasslike phase of fragmented condensates. We discuss realistic implementations of this model with cold atoms.

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可积分耗散玻色-哈伯德模型中的柳维利集肤效应和碎片凝结物
强相互作用的非平衡系统具有重大的基础意义,但其固有的复杂性使其难以分析。我们证明,玻色-哈伯德模型的动力学本身是不可解的,但在任何相互作用强度下,只要损耗调谐到与跳跃振幅相匹配的速率,就能精确求解。值得注意的是,相应刘维模型的完全可解性以及相关有效非赫米梯哈密顿的可积分性,在加入无序和一般边界条件后依然存在。通过分析贝特方差解,我们发现即使是微弱的相互作用也会改变系统的定性特征,从而导致错综复杂的动力学相图,其特点包括非赫米梯莫特皮效应、无序诱导的局域化、高度退化的例外点以及碎片状凝结物的玻色玻璃相。我们讨论了该模型与冷原子的实际应用。
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