Thermodynamics and density fluctuations in a bilayer Hubbard system of ultracold atoms

arXiv - PHYS - Quantum Gases Pub Date : 2024-07-16 DOI:arxiv-2407.11863
J. Samland, N. Wurz, M. Gall, M. Köhl
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Abstract

We measure the equation of state in a bilayer Hubbard system for different ratios of the two tunnelling amplitudes $t_\perp /t$. From the equation of state we deduce the compressibility and observe its dependency on $t_\perp /t$. Moreover, we infer thermodynamic number fluctuations from the equation of state by employing the fluctuation-dissipation theorem. By comparing the thermodynamic with local density fluctuations, we find that non-local density fluctuations in our bilayer Hubbard system become more prominent for higher $t_\perp /t$ in the low filling regime. To validate our measurements, we compare them to Determinant Quantum Monte Carlo simulations of a bilayer Hubbard system with 6$\times$6 lattice sites per layer.
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超冷原子双层哈巴系统的热力学和密度波动
我们测量了双层哈伯德系统中两个隧穿振幅 $t_\perp /t$ 的不同比率的状态方程。此外,我们还利用波动-消散定理从状态方程中推断出热力学数波动。通过比较热力学波动和局域密度波动,我们发现在双层哈伯德体系中,非局域密度波动在低填充体系中当$t_\perp /t$越高时越突出。为了验证我们的测量结果,我们将其与每层有 6 个晶格位点的双层哈伯德系统的确定量子蒙特卡罗模拟进行了比较。
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arXiv - PHYS - Quantum Gases
arXiv - PHYS - Quantum Gases
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