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Spectra of perfect state transfer Hamiltonians on fractal-like graphs

Gamal Mograby, Maxim Derevyagin, Gerald V Dunne, Alexander Teplyaev

2020Journal of Physics A Mathematical and Theoretical24 citationsDOIOpen Access PDF

Abstract

Abstract In this paper we study the spectral features, on fractal-like graphs, of Hamiltonians which exhibit the special property of perfect quantum state transfer (PQST): the transmission of quantum states without dissipation. The essential goal is to develop the theoretical framework for understanding the interplay between PQST, spectral properties, and the geometry of the underlying graph, in order to design novel protocols for applications in quantum information science. We present a new lifting and gluing construction, and use this to prove results concerning an inductive spectral structure, applicable to a wide variety of fractal-like graphs. We illustrate this construction with explicit examples for several classes of diamond graphs.

Topics & Concepts

QuantumVariety (cybernetics)Quantum informationProperty (philosophy)State (computer science)MathematicsSpectral propertiesQuantum stateTransfer (computing)Topology (electrical circuits)Transmission (telecommunications)Spectral lineQuantum channelQuantum information scienceSpectrum (functional analysis)Pure mathematicsQuantum networkTheoretical physicsQuantum graphQuantum mechanicsDiscrete mathematicsPhysicsInformation transmissionCoherent informationQuantum systemComputer scienceOrder (exchange)Simple (philosophy)Quantum Computing Algorithms and ArchitectureQuantum many-body systemsGraph theory and applications
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