Litcius/Paper detail

Nonstabilizerness via Matrix Product States in the Pauli Basis

Poetri Sonya Tarabunga, Emanuele Tirrito, Mari Carmen Bañuls, Marcello Dalmonte

2024Physical Review Letters71 citationsDOIOpen Access PDF

Abstract

Nonstabilizerness, also known as "magic," stands as a crucial resource for achieving a potential advantage in quantum computing. Its connection to many-body physical phenomena is poorly understood at present, mostly due to a lack of practical methods to compute it at large scales. We present a novel approach for the evaluation of nonstabilizerness within the framework of matrix product states (MPSs), based on expressing the MPS directly in the Pauli basis. Our framework provides a powerful tool for efficiently calculating various measures of nonstabilizerness, including stabilizer Rényi entropies, stabilizer nullity, and Bell magic, and enables the learning of the stabilizer group of an MPS. We showcase the efficacy and versatility of our method in the ground states of Ising and XXZ spin chains, as well as in circuits dynamics that has recently been realized in Rydberg atom arrays, where we provide concrete benchmarks for future experiments on logical qubits up to twice the sizes already realized.

Topics & Concepts

Basis (linear algebra)Product (mathematics)Matrix (chemical analysis)Pauli exclusion principleMathematicsTheoretical physicsPhysicsQuantum mechanicsGeometryMaterials scienceComposite materialMatrix Theory and AlgorithmsSpectral Theory in Mathematical PhysicsQuantum chaos and dynamical systems