We consider a spin network resembling an α -helix structure and study quantum information transfer over this bio-inspired network. The model we use is the Davydov model in its elementary version without a phononic environment. We investigate analytically and numerically the perfect state transfer (PST) in such a network which provides an upper bound on the probability of quantum states transfer from one node to another. We study PST for different boundary conditions on the network and show it is reachable between certain nodes and with suitable spin–spin couplings.

Faraji, E., Nourmandipour, A., Mancini, S., Pettini, M., Franzosi, R. (2023). Routing a quantum state in a bio-inspired network. QUANTUM INFORMATION PROCESSING, 22(7) [10.1007/s11128-023-03942-1].

Routing a quantum state in a bio-inspired network

Franzosi, Roberto
2023-01-01

Abstract

We consider a spin network resembling an α -helix structure and study quantum information transfer over this bio-inspired network. The model we use is the Davydov model in its elementary version without a phononic environment. We investigate analytically and numerically the perfect state transfer (PST) in such a network which provides an upper bound on the probability of quantum states transfer from one node to another. We study PST for different boundary conditions on the network and show it is reachable between certain nodes and with suitable spin–spin couplings.
2023
Faraji, E., Nourmandipour, A., Mancini, S., Pettini, M., Franzosi, R. (2023). Routing a quantum state in a bio-inspired network. QUANTUM INFORMATION PROCESSING, 22(7) [10.1007/s11128-023-03942-1].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11365/1236834