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arxiv: 2210.09494 · v2 · pith:F3G3XHCL · submitted 2022-10-18 · quant-ph

The Zak transform: a framework for quantum computation with the Gottesman-Kitaev-Preskill code

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classification quant-ph
keywords modecodetransformbasisbosoniccorrectionerrorgauge
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The Gottesman-Kitaev-Preskill (GKP) code encodes a qubit into a bosonic mode using periodic wavefunctions. This periodicity makes the GKP code a natural setting for the Zak transform, which is tailor-made to provide a simple description for periodic functions. We review the Zak transform and its connection to a Zak basis of states in Hilbert space, decompose the shift operators that underpin the stabilizers and the correctable errors, and we find that Zak transforms of the position wavefunction appear naturally in GKP error correction. We construct a new bosonic subsystem decomposition (SSD) -- the modular variable SSD -- by dividing a mode's Hilbert space, expressed in the Zak basis, into that of a virtual qubit and a virtual gauge mode. Tracing over the gauge mode gives a logical-qubit state, and preceding the trace with a particular logical-gauge interaction gives a different logical state -- that associated to GKP error correction.

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