Analytical and numerical study of stabilizer nullity and Rényi entropies in monitored Clifford circuits shows quantized decay for computational measurements and size-dependent relaxation to a non-trivial steady state for rotated bases.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
quant-ph 2representative citing papers
A complexity quantifier for stabilizer quantum states is defined via Jordan and Lie products and linked to nonstabilizerness via the L^4-norm of characteristic functions.
citing papers explorer
-
Rise and fall of nonstabilizerness via random measurements
Analytical and numerical study of stabilizer nullity and Rényi entropies in monitored Clifford circuits shows quantized decay for computational measurements and size-dependent relaxation to a non-trivial steady state for rotated bases.
-
Complexity of quantum states in the stabilizer formalism
A complexity quantifier for stabilizer quantum states is defined via Jordan and Lie products and linked to nonstabilizerness via the L^4-norm of characteristic functions.