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Non-Abelian Holonomy in Degenerate Non-Hermitian Systems

Zhong‐Lei Shan, Yi‐Ke Sun, Ran Tao, Qi‐Dai Chen, Zhen‐Nan Tian, Xu‐Lin Zhang

2024Physical Review Letters17 citationsDOI

Abstract

Non-Abelian holonomy, a noncommutative process that measures the parallel transport of non-Abelian gauge fields, has so far been realized in degenerate Hermitian systems with degenerate eigenstates or nondegenerate non-Hermitian systems with exceptional points. Here, we introduce non-Abelian holonomy into degenerate non-Hermitian systems possessing degenerate exceptional points and degenerate energy topologies. The interplay between energy degeneracy and energy topology around exceptional points leads to a non-Abelian holonomy with multiple energy levels and multiple degenerate levels simultaneously, going beyond that in degenerate Hermitian systems with a single energy level, or in nondegenerate non-Hermitian systems with a single degenerate level. We exploit an on-chip photonic platform to experimentally demonstrate the holonomy induced non-Abelian phenomenon, including the switching of eigenstates associated with different degenerate exceptional points and sequence-dependent holonomic outcomes. Our work shifts the paradigm of non-Abelian holonomy and adds new degrees of freedom for non-Abelian applications.

Topics & Concepts

HolonomyDegenerate energy levelsHermitian matrixPhysicsAbelian groupDegeneracy (biology)Eigenvalues and eigenvectorsTopology (electrical circuits)Quantum mechanicsMathematical physicsPure mathematicsMathematicsBioinformaticsBiologyCombinatoricsQuantum Mechanics and Non-Hermitian PhysicsTopological Materials and PhenomenaQuantum chaos and dynamical systems
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