Exotic localization for the two body bound states in the non-reciprocal Hubbard model

Huan-Yu Wang, Ji Li, Wu-Ming Liu, Lin Wen, Xiao-Fei Zhang
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Abstract

We investigate the localization behavior of two-body Hubbard model in the presence of non-reciprocal tunneling, where the interaction induced Anderson localization competes with the non-Hermitian skin effects and gives rise to diverse patterns of density profiles. Here, we present the non-Hermitian bound states obtained with the center of mass methods in the conditions of strong repulsive interaction, where a faded diagonal line localization is observed. While for the continuum limit, the non-Hermitian skin effects are manifested by non-zero windings of the eigen-energy spectrum. For the moderate interaction strength, it is illustrated that the system possesses multiple Lyapunov exponents due to the competence above and as a consequence, in sharp contrast to the corner localization, the two-body non-Hermitian continuum states can exhibit multiple localization center. By further including two-photon tunneling, topological nontrivial photon bound pairs can be obtained. Finally, the experimental simulations are proposed based on the platforms of the electrical circuit lattices.
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非互惠哈伯德模型中两体束缚态的异域定位
我们研究了双体哈伯德模型在非互斥隧道作用下的局域化行为,在这种情况下,相互作用诱导的安德森局域化与非赫米蒂皮肤效应竞争,并产生了密度剖面的不同模式。在这里,我们介绍了在强反冲作用条件下用质心法得到的非ermitian 边界态,在这种情况下可以观察到褪色的对角线局域化,而对于连续极限,非ermitian 皮肤效应表现为特征能谱的非零缠绕。在中等相互作用强度下,由于上述能力,系统具有多个 Lyapunovexponents,因此,与角局域化形成鲜明对比的是,二体非ermitian 连续态可以表现出多个局域化中心。通过进一步加入双光子隧道,可以得到拓扑非难光子束缚对。最后,提出了基于电路晶格平台的实验模拟。
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