凝聚态物质中的粒子-空穴对称性

M. Zirnbauer
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引用次数: 33

摘要

在当代物理学中,“粒子-空穴对称”一词被各种相互矛盾的含义所困扰。从凝聚态物质的角度构思和写作,本文旨在澄清和锐化术语。在这种情况下,我们建议将“粒子-空穴共轭”操作定义为简单交换单费米子产生算子和湮灭算子的同义代数自同构,并构造其对Fock空间的不变提升。当粒子-空穴共轭与一种或另一种逆转第一量子化哈密顿符号的对合时,粒子-空穴对称性就会在半填充时出现。我们用一系列的例子来说明这种构造原理,包括Su-Schrieffer-Heeger模型和Kitaev-Majorana链。为了增强视角,我们将粒子-空穴对称性与相对论性狄拉克费米子的电荷共轭对称性进行了对比。我们继续介绍电子相互作用领域的两个主要应用。首先,我们认为反铁磁量子自旋链中著名的霍尔丹相与受粒子-空穴对称保护的自由费米子拓扑相是绝热相连的。另一方面,我们回顾了Son最近提出的半填充最低朗道能级的粒子-空穴共轭对称有效场理论,并对复合费米子的微观图像进行了评论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Particle–hole symmetries in condensed matter
The term "particle-hole symmetry" is beset with conflicting meanings in contemporary physics. Conceived and written from a condensed-matter standpoint, the present paper aims to clarify and sharpen the terminology. In that vein, we propose to define the operation of "particle-hole conjugation" as the tautological algebra automorphism that simply swaps single-fermion creation and annihilation operators, and we construct its invariant lift to the Fock space. Particle-hole symmetries then arise for gapful or gapless free-fermion systems at half filling, as the concatenation of particle-hole conjugation with one or another involution that reverses the sign of the first-quantized Hamiltonian. We illustrate that construction principle with a series of examples including the Su-Schrieffer-Heeger model and the Kitaev-Majorana chain. For an enhanced perspective, we contrast particle-hole symmetries with the charge-conjugation symmetry of relativistic Dirac fermions. We go on to present two major applications in the realm of interacting electrons. For one, we argue that the celebrated Haldane phase of antiferromagnetic quantum spin chains is adiabatically connected to a free-fermion topological phase protected by a particle-hole symmetry. For another, we review the recent proposal by Son for a particle-hole conjugation symmetric effective field theory of the half-filled lowest Landau level, and we comment on the emerging microscopic picture of the composite fermion.
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