Stabilizer formalism Z2 LGTs Stabilizer operators Gauss’s law operators Code space Physical space TABLE I: Correspondence between the stabilizer formalism andZ 2 LGTs

If there exists an operatorP∈ P N such that P∈ S ψ and−P∈ S ϕ, the states are orthogonal:| ⟨ϕ|ψ⟩ |= 0

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Gauge-invariant QMETTS with mutually unbiased physical bases for $Z_2$ lattice gauge theories at finite temperature and density

quant-ph · 2026-03-11 · conditional · novelty 7.0

Introduces gauge-invariant QMETTS using mutually unbiased physical bases derived from stabilizer formalism for Z2 LGT at finite T and density, with single-shot sampling shown near-optimal and numerical validation in 1+1D.

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Gauge-invariant QMETTS with mutually unbiased physical bases for $Z_2$ lattice gauge theories at finite temperature and density quant-ph · 2026-03-11 · conditional · none · ref 12
Introduces gauge-invariant QMETTS using mutually unbiased physical bases derived from stabilizer formalism for Z2 LGT at finite T and density, with single-shot sampling shown near-optimal and numerical validation in 1+1D.

Stabilizer formalism Z2 LGTs Stabilizer operators Gauss’s law operators Code space Physical space TABLE I: Correspondence between the stabilizer formalism andZ 2 LGTs

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