Nonstabilizerness describes the distance of a quantum state to its closest stabilizer state. It is - like entanglement - a necessary resource for a quantum advantage over classical computing. We study nonstabilizerness, quantified by stabilizer entropy, in a hybrid quantum circuit with projective measurements and a controlled injection of non-Clifford resources. We discover a phase transition between a power law and constant scaling of nonstabilizerness with system size controlled by the rate of measurements. The same circuit also exhibits a phase transition in entanglement that appears, however, at a different critical measurement rate. This mechanism shows how, from the viewpoint of a quantum advantage, hybrid circuits can host multiple distinct transitions where not only entanglement, but also other nonlinear properties of the density matrix come into play.
Entanglement – nonstabilizerness separation in hybrid quantum circuits / Fux, Gerald E.; Tirrito, Emanuele; Dalmonte, Marcello; Fazio, Rosario. - In: PHYSICAL REVIEW RESEARCH. - ISSN 2643-1564. - 6:4(2024). [10.1103/physrevresearch.6.l042030]
Entanglement – nonstabilizerness separation in hybrid quantum circuits
Fazio, Rosario
2024
Abstract
Nonstabilizerness describes the distance of a quantum state to its closest stabilizer state. It is - like entanglement - a necessary resource for a quantum advantage over classical computing. We study nonstabilizerness, quantified by stabilizer entropy, in a hybrid quantum circuit with projective measurements and a controlled injection of non-Clifford resources. We discover a phase transition between a power law and constant scaling of nonstabilizerness with system size controlled by the rate of measurements. The same circuit also exhibits a phase transition in entanglement that appears, however, at a different critical measurement rate. This mechanism shows how, from the viewpoint of a quantum advantage, hybrid circuits can host multiple distinct transitions where not only entanglement, but also other nonlinear properties of the density matrix come into play.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
