Litcius/Paper detail

Demonstration of non-Markovian process characterisation and control on a quantum processor

G. A. L. White, C. D. Hill, F. A. Pollock, L. C. L. Hollenberg, K. Modi

2020Nature Communications137 citationsDOIOpen Access PDF

Abstract

Abstract In the scale-up of quantum computers, the framework underpinning fault-tolerance generally relies on the strong assumption that environmental noise affecting qubit logic is uncorrelated (Markovian). However, as physical devices progress well into the complex multi-qubit regime, attention is turning to understanding the appearance and mitigation of correlated — or non-Markovian — noise, which poses a serious challenge to the progression of quantum technology. This error type has previously remained elusive to characterisation techniques. Here, we develop a framework for characterising non-Markovian dynamics in quantum systems and experimentally test it on multi-qubit superconducting quantum devices. Where noisy processes cannot be accounted for using standard Markovian techniques, our reconstruction predicts the behaviour of the devices with an infidelity of 10 −3 . Our results show this characterisation technique leads to superior quantum control and extension of coherence time by effective decoupling from the non-Markovian environment. This framework, validated by our results, is applicable to any controlled quantum device and offers a significant step towards optimal device operation and noise reduction.

Topics & Concepts

QuantumComputer scienceQubitNoise (video)Coherence (philosophical gambling strategy)Quantum technologyDecoupling (probability)Quantum computerQuantum error correctionProcess (computing)Electronic engineeringQuantum sensorUncorrelatedMarkov processControl (management)Quantum processAlgorithmComputer engineeringPhysicsStatistical physicsUnderpinningDynamical decouplingCoherent controlQuantum networkQuantum systemError detection and correctionCoherence timeQuantum gateEnvironmental noiseRobustness (evolution)Open quantum systemQuantum informationQutritQuantum noiseQuantum algorithmProcess controlQuantum Computing Algorithms and ArchitectureAdvanced Thermodynamics and Statistical MechanicsQuantum Information and Cryptography