Exact Z2 electromagnetic duality of Z2 toric code is non-Clifford

Abstract

The 2D Z2 toric code admits a global symmetry exchanging electric and magnetic quasiparticles, known as electromagnetic duality. Known realizations include lattice translation symmetry, an exact Z4 symmetry generated by a Clifford circuit, and an exact Z2 symmetry generated by a non-Clifford circuit. We show that a Clifford electromagnetic duality cannot realize an exact internal Z2 symmetry. This is proved rigorously for symmetries with coarse translation invariance by l lattice units for generic odd l. Therefore an exact internal Z2 electromagnetic duality must be non-Clifford, whereas generic internal Clifford realization necessarily has Z2m algebra with m 2. Our result suggests an unexpected connection between the algebra of exact electromagnetic duality and Clifford hierarchy of circuits.

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