贝特晶格上的量子库仑玻璃

I. Lovas, A. Kiss, C. Moca, G. Zar'and
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引用次数: 1

摘要

我们研究了贝特晶格上无自旋费米子模型中强相互作用和无序相互作用产生的库仑玻璃。在无限配位数极限下,强相互作用诱导出在费米能量处具有赝隙结构的金属库仑玻璃相。量子涨落和热涨落都使玻璃熔化,并诱导出无序的量子液相。我们将自洽图摄动理论与连续时间量子蒙特卡罗模拟相结合,得到了电子玻璃的完整相图,并表征了其在量子液体中的动力学性质,以及在复制对称破玻璃相中的动力学性质。随着温度的降低,隧道光谱显示出Efros-Shklovskii赝隙,但由于残余量子涨落,态密度在费米能量处仍然是有限的。我们的结果与在Si反转层中观察到的金属玻璃相有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantum Coulomb glass on the Bethe lattice
We study the Coulomb glass emerging from the interplay of strong interactions and disorder in a model of spinless fermions on the Bethe lattice. In the infinite coordination number limit, strong interactions induce a metallic Coulomb glass phase with a pseudogap structure at the Fermi energy. Quantum and thermal fluctuations both melt this glass and induce a disordered quantum liquid phase. We combine self-consistent diagrammatic perturbation theory with continuous time quantum Monte-Carlo simulations to obtain the complete phase diagram of the electron glass, and to characterize its dynamical properties in the quantum liquid, as well as in the replica symmetry broken glassy phase. Tunneling spectra display an Efros-Shklovskii pseudogap upon decreasing temperatures, but the density of states remains finite at the Fermi energy due to residual quantum fluctuations. Our results bear relevance to the metallic glass phase observed in Si inversion layers.
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