缺口手性费米子

Shlomo S. Razamat, D. Tong
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引用次数: 31

摘要

原则上,没有任何障碍可以让间隙费米子保持任何不遭受t - Hooft异常的全局对称性。在实践中,保持费米子的手性对称性需要强耦合动力学。我们展示了如何使用超对称规范理论的熟悉结果,特别是没有手性对称性破缺的约束现象来实现这一点。我们提出了一个简单的模型,在保留一个对称群的情况下,费米子以手性表示变换。例如,我们展示了如何在不破坏电弱对称性的情况下,将携带一代标准模型量子数的四维费米子集合隔开。我们进一步展示了如何在保持某些表现出模16异常的离散对称性的同时,在16组中间隙费米子。
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Gapped Chiral Fermions
In principle, there is no obstacle to gapping fermions preserving any global symmetry that does not suffer a 't Hooft anomaly. In practice, preserving a symmetry that is realised on fermions in a chiral manner necessitates strong coupling dynamics. We show how this can be achieved using familiar results about supersymmetric gauge theories and, in particular, the phenomenon of confinement without chiral symmetry breaking. We present simple models that gap fermions while preserving a symmetry group under which they transform in chiral representations. For example, we show how to gap a collection of 4d fermions that carry the quantum numbers of one generation of the Standard Model, but without breaking electroweak symmetry. We further show how to gap fermions in groups of 16 while preserving certain discrete symmetries that exhibit a mod 16 anomaly.
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