Nonstabilizerness of Permutationally Invariant Systems
classification
🪐 quant-ph
keywords
nonstabilizernesssystemsdimensionexpectationinvariantpaulipermutationallyqubits
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Typical measures of nonstabilizerness of a system of $N$ qubits require computing $4^N$ expectation values, one for each Pauli string in the Pauli group, over a state of dimension $2^N$. For permutationally invariant systems, this exponential overhead can be reduced to just $O(N^3)$ expectation values on a state with a dimension $O(N)$. We exploit this simplification to study the nonstabilizerness phase transitions of systems with hundreds of qubits.
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