Noncommutative geometry and deformation quantization in the quantum Hall fluids with inhomogeneous magnetic fields

Journal of Physics A Pub Date : 2023-10-18 DOI:10.1088/1751-8121/ad018b
Giandomenico Palumbo
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Abstract

Abstract It is well known that noncommutative geometry naturally emerges in the quantum Hall states due to the presence of strong and constant magnetic fields. Here, we discuss the underlying noncommutative geometry of quantum Hall fluids in which the magnetic fields are spatially inhomogenoeus. We analyze these cases by employing symplectic geometry and Fedosov’s deformation quantization, which rely on symplectic connections and Fedosov’s star-product. Through this formalism, we unveil some new features concerning the static limit of the Haldane’s unimodular metric and the Girvin–MacDonald–Platzman algebra of the density operators, which plays a central role in the fractional quantum Hall effect.
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非均匀磁场下量子霍尔流体的非交换几何和变形量子化
摘要:众所周知,由于强而恒定的磁场的存在,量子霍尔态中自然出现了非对易几何。在这里,我们讨论了磁场在空间上不均匀的量子霍尔流体的潜在非交换几何。我们利用辛几何和Fedosov的变形量子化来分析这些情况,这些变形量子化依赖于辛连接和Fedosov星积。通过这种形式,我们揭示了在分数量子霍尔效应中起核心作用的密度算子的非模度量的静态极限和Girvin-MacDonald-Platzman代数的一些新特征。
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Journal of Physics A
Journal of Physics A
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