99.9%-fidelity in measuring a superconducting qubit
Reviewed by Pithpith:6BNTAKWMopen to challenge →
read the original abstract
Despite the significant progress in superconducting quantum computation over the past years, quantum state measurement still lags nearly an order of magnitude behind quantum gate operations in speed and fidelity. The main challenge is that the strong coupling and readout signal used to probe the quantum state may also introduce additional channels which may cause qubit state transitions. Here, we design a novel architecture to implement the long-sought longitudinal interaction scheme between qubits and resonators. This architecture not only provides genuine longitudinal interaction by eliminating residual transversal couplings, but also introduces proper nonlinearity to the resonator that can further minimize decay error and measurement-induced excitation error. Our experimental results demonstrate a measurement fidelity of 99.8% in 202 ns without the need for any first-stage amplification. After subtracting the residual preparation errors, the pure measurement fidelity is above 99.9%. Our scheme is compatible with the multiplexing readout scheme and can be used for quantum error correction.
This paper has not been read by Pith yet.
Forward citations
Cited by 3 Pith papers
-
Multimode Purcell Filter for Superconducting-Qubit Reset and Readout with Intrinsic Purcell Protection
A single multimode resonator enables unconditional qubit reset below 1% residual excitation in 220 ns and selective leakage reduction to 6.1% |f> population in 62 ns, with intrinsic Purcell protection preserving relax...
-
Improving Feasibility in Quantum Approximate Optimization Algorithm for Vehicle Routing via Constraint-Aware Initialization and Hybrid XY-X Mixing
Constraint-aware initialization and hybrid XY-X mixer in QAOA for VRP yield lower average energies and higher feasible-solution ratios than standard QAOA across ideal, finite-shot, and noisy simulations.
-
Probing Time Reversal Symmetry Breaking using a Nonlinear Superconducting Ring Resonator
A driven-dissipative model of a two-mode superconducting circuit with self- and cross-Kerr nonlinearities demonstrates enhanced TRSB detection via symmetric photon configurations broken by weak symmetry breaking.
discussion (0)
Sign in with ORCID, Apple, or X to comment. Anyone can read and Pith papers without signing in.