Litcius/Paper detail

Fermionic quantum cellular automata and generalized matrix-product unitaries

Lorenzo Piroli, Alex Turzillo, Sujeet K. Shukla, J. I. Cirac

2021Journal of Statistical Mechanics Theory and Experiment25 citationsDOIOpen Access PDF

Abstract

Abstract In this paper, we study matrix-product unitary operators (MPUs) for fermionic one-dimensional chains. In stark contrast to the case of 1D qudit systems, we show that (i) fermionic MPUs (fMPUs) do not necessarily feature a strict causal cone and (ii) not all fermionic quantum cellular automata (QCA) can be represented as fMPUs. We then introduce a natural generalization of the latter, obtained by allowing for an additional operator acting on their auxiliary space. We characterize a family of such generalized MPUs that are locality-preserving, and show that, up to appending inert ancillary fermionic degrees of freedom, any representative of this family is a fermionic QCA (fQCA) and vice versa. Finally, we prove an index theorem for generalized MPUs, recovering the recently derived classification of fQCA in one dimension. As a technical tool for our analysis, we also introduce a graded canonical form for fermionic matrix product states, proving its uniqueness up to similarity transformations.

Topics & Concepts

Quantum cellular automatonDimension (graph theory)GeneralizationProduct (mathematics)Operator (biology)Cellular automatonAtiyah–Singer index theoremPure mathematicsUniquenessMatrix (chemical analysis)Matrix multiplicationMathematicsQuantumPhysicsQuantum mechanicsAlgorithmMathematical analysisBiochemistryRepressorGeometryMaterials scienceChemistryGeneTranscription factorComposite materialQuantum many-body systemsTopological Materials and PhenomenaQuantum and electron transport phenomena