Mid-circuit measurements
Our group is interested in using mid-circuit measurements and fast classical feedback to speed up quantum computations, quantum simulations, and preparation of entangled states (including metrologically relevant entangled states), as well as in understanding dynamics of many-body quantum systems subject to mid-circuit measurements.
Sample of Related Publications
Measurement-Induced Entanglement in Noisy 2D Random Clifford Circuits
, , arXiv:2510.12743, (2025)Wei et al_2025_Measurement-induced entanglement in noisy 2D random Clifford circuits.pdfEfficient Preparation of Dicke States
, , Phys. Rev. Lett., 136, (2026)9gjk-rgql.pdfprl-supplement.pdfToward a 2D Local Implementation of Quantum LDPC Codes
, , PRX Quantum, 6, (2025)PRXQuantum.6.010306.pdfFault-Tolerant Hyperbolic Floquet Quantum Error Correcting Codes
, , Quantum, 9, (2025)2309.10033v4.pdfQuantum Non-Demolition Photon Counting in a 2d Rydberg Atom Array
, , arXiv:2210.10798 [quant-ph], (2022)fechisin22.pdfQuantum Routing with Teleportation
, , Phys. Rev. Research, 6, (2024)PhysRevResearch.6.033313.pdfMonitoring-induced entanglement entropy and sampling complexity
, , Physical Review Research, 4, (2022)PhysRevResearch.4.L032021-combined.pdfFeedback-stabilized dynamical steady states in the Bose-Hubbard model
, , Physical Review Research, 3, (2021)young21b.pdfMeasurement-Induced Entanglement in Noisy 2D Random Clifford Circuits
, , arXiv:2510.12743, (2025)Wei et al_2025_Measurement-induced entanglement in noisy 2D random Clifford circuits.pdfClassical Models of Entanglement in Monitored Random Circuits
, , arXiv:2004.06736, (2020)2004.06736.pdfEntanglement Bounds on the Performance of Quantum Computing Architectures
, , Physical Review Research, 2, (2020)eldredge20.pdf