Random logic networks: From classical Boolean to quantum dynamics

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Abstract

We investigate dynamical properties of a quantum generalization of classical reversible Boolean networks. The state of each node is encoded as a single qubit, and classical Boolean logic operations are supplemented by controlled bit-flip and Hadamard operations. We consider synchronous updating schemes in which each qubit is updated at each step based on stored values of the qubits from the previous step. We investigate the periodic or quasiperiodic behavior of quantum networks, and we analyze the propagation of single site perturbations through the quantum networks with input degree one. A non-classical mechanism for perturbation propagation leads to substantially different evolution of the Hamming distance between the original and perturbed states.

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10.1103/physreve.104.064308

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Kluge, Lucas, Joshua ES Socolar and Eckehard Schöll (n.d.). Random logic networks: From classical Boolean to quantum dynamics. Physical Review E, 104(6). 10.1103/physreve.104.064308 Retrieved from https://hdl.handle.net/10161/24190.

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Scholars@Duke

Socolar

Joshua Socolar

Professor of Physics

Prof. Socolar is interested in collective behavior in condensed matter and dynamical systems. His current research interests include:

  • Limit-periodic structures, quasicrystals, packing problems, and tiling theory;
  • Self-assembly and phases of designed colloidal particles;
  • Shear jamming and stick-slip behavior in dry granular materials;
  • Organization and dynamics of complex networks;
  • Topological elasticity of mechanical lattices.

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