Litcius/Paper detail

Magic state distillation with the ternary Golay code

Shiroman Prakash

2020Proceedings of the Royal Society A Mathematical Physical and Engineering Sciences17 citationsDOIOpen Access PDF

Abstract

The ternary Golay code—one of the first and most beautiful classical error-correcting codes discovered—naturally gives rise to an 11-qutrit quantum error correcting code. We apply this code to magic state distillation, a leading approach to fault-tolerant quantum computing. We find that the 11-qutrit Golay code can distil the ‘most magic’ qutrit state—an eigenstate of the qutrit Fourier transform known as the strange state —with cubic error suppression and a remarkably high threshold. It also distils the ‘second-most magic’ qutrit state, the Norell state, with quadratic error suppression and an equally high threshold to depolarizing noise.

Topics & Concepts

Binary Golay codeTernary Golay codeQutritMAGIC (telescope)Ternary operationMathematicsQuantumQuadratic equationQubitQuantum mechanicsError detection and correctionPhysicsCode (set theory)Binary numberQuantum computerFourier transformState (computer science)AlgorithmMagic squareEigenvalues and eigenvectorsLattice (music)Quantum stateCyclic codeBinary codeQuantum error correctionAssociative propertyQuadratic residueDiscrete mathematicsFinite stateStatistical physicsQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyChemical and Physical Properties of Materials