Litcius/Paper detail

Mid-circuit correction of correlated phase errors using an array of spectator qubits

Kevin Singh, C. E. Bradley, Shraddha Anand, V. Ramesh, Ryan White, Hannes Bernien

2023Science124 citationsDOI

Abstract

Scaling up invariably error-prone quantum processors is a formidable challenge. Although quantum error correction ultimately promises fault-tolerant operation, the required qubit overhead and error thresholds are daunting. In a complementary proposal, colocated, auxiliary "spectator" qubits act as in situ probes of noise and enable real-time, coherent corrections of data qubit errors. We used an array of cesium spectator qubits to correct correlated phase errors on an array of rubidium data qubits. By combining in-sequence readout, data processing, and feedforward operations, these correlated errors were suppressed within the execution of the quantum circuit. The protocol is broadly applicable to quantum information platforms and establishes key tools for scaling neutral-atom quantum processors: mid-circuit readout of atom arrays, real-time processing and feedforward, and coherent mid-circuit reloading of atomic qubits.

Topics & Concepts

QubitComputer scienceQuantum error correctionQuantum computerError detection and correctionNoise (video)Overhead (engineering)Entanglement distillationPhysicsQuantumAlgorithmSuperconducting quantum computingQuantum mechanicsTopology (electrical circuits)Electrical engineeringEngineeringImage (mathematics)Artificial intelligenceOperating systemQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyElectronic and Structural Properties of Oxides