In U(1)-symmetric random circuits, initial states with lower stabilizer Rényi entropy generate nonstabilizerness faster than those with higher entropy, with the effect also depending on spatial charge structure and extending to SU(2) circuits and Hamiltonian dynamics.
Anticoncentration and magic spreading under ergodic quantum dynamics
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The stabilizer Rényi entropy governs the exponential rate at which Clifford orbits become indistinguishable from Haar-random states and sets the optimal distinguishability from stabilizer states in property testing.
Bond formation in H2 and other dimers increases non-stabilizerness (magic) of the ground state, peaking with binding energy and suggesting stretched molecules as quantum resources.
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Nonstabilizerness Mpemba Effects
In U(1)-symmetric random circuits, initial states with lower stabilizer Rényi entropy generate nonstabilizerness faster than those with higher entropy, with the effect also depending on spatial charge structure and extending to SU(2) circuits and Hamiltonian dynamics.
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Operational interpretation of the Stabilizer Entropy
The stabilizer Rényi entropy governs the exponential rate at which Clifford orbits become indistinguishable from Haar-random states and sets the optimal distinguishability from stabilizer states in property testing.
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Are Molecules Magical? Non-Stabilizerness in Molecular Bonding
Bond formation in H2 and other dimers increases non-stabilizerness (magic) of the ground state, peaking with binding energy and suggesting stretched molecules as quantum resources.