亚波长晶格中来自有效几何挫折和长程相互作用的多体相位

arXiv - PHYS - Quantum Gases Pub Date : 2024-09-02 DOI:arxiv-2409.01443

Domantas Burba, Gediminas Juzeliūnas, Ian B. Spielman, Luca Barbiero

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引用次数: 0

摘要

在整个物理学中，几何挫折和长程耦合是产生具有不同性质的量子相的关键因素。我们提出了一种方案，在拉曼诱导的次波长晶格中，这两种成分都会自然出现。我们首先证明了拉曼耦合多组分量子气体可以实现具有长程相互作用的高度通用的受挫哈伯德哈密顿。深亚波长晶格周期导致粒子间具有可调范围和衰减的强长程斥力。我们用数字证明，沮度和长程耦合的结合产生了玻色子的多体相，包括一系列分别具有破译平移对称性和时间反转对称性的密度波和超流体相。因此，我们的结果代表了一种在量子模拟中有效结合长程相互作用和沮度的强大方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Many-body phases from effective geometrical frustration and long-range interactions in a subwavelength lattice

Geometrical frustration and long-range couplings are key contributors to create quantum phases with different properties throughout physics. We propose a scheme where both ingredients naturally emerge in a Raman induced subwavelength lattice. We first demonstrate that Raman-coupled multicomponent quantum gases can realize a highly versatile frustrated Hubbard Hamiltonian with long-range interactions. The deeply subwavelength lattice period leads to strong long-range interparticle repulsion with tunable range and decay. We numerically demonstrate that the combination of frustration and long-range couplings generates many-body phases of bosons, including a range of density-wave and superfluid phases with broken translational and time reversal symmetries, respectively. Our results thus represent a powerful approach for efficiently combining long-range interactions and frustration in quantum simulations.

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arXiv - PHYS - Quantum Gases

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