Robust quantum routing is essential for scalable quantum technologies. This paper investigates the resilience of routing protocols in network architectures designed for perfect, high-fidelity transfer of both classical and quantum information under ideal conditions. We encode information in the position of a quantum walker on a graph, modelling the routing of a generic qubit state from a single input to multiple (orthogonal) outputs. We analyse and assess routing performance in various regimes, evaluating their robustness against static and dynamical noise.

Routing qubits on noisy networks / Benedetti, Claudia; Ragazzi, Giovanni; Cavazzoni, Simone; Bordone, Paolo; Paris, Matteo G. A.. - In: JOURNAL OF PHYSICS. COMPLEXITY. - ISSN 2632-072X. - 7:(2026), pp. 025001-1-025001-17. [10.1088/2632-072X/ae5439]

Routing qubits on noisy networks

Claudia Benedetti;Giovanni Ragazzi;Simone Cavazzoni;Paolo Bordone;
2026

Abstract

Robust quantum routing is essential for scalable quantum technologies. This paper investigates the resilience of routing protocols in network architectures designed for perfect, high-fidelity transfer of both classical and quantum information under ideal conditions. We encode information in the position of a quantum walker on a graph, modelling the routing of a generic qubit state from a single input to multiple (orthogonal) outputs. We analyse and assess routing performance in various regimes, evaluating their robustness against static and dynamical noise.
2026
2-apr-2026
7
025001-1
025001-17
WOS:001731548400001
2-s2.0-105035354698
Routing qubits on noisy networks / Benedetti, Claudia; Ragazzi, Giovanni; Cavazzoni, Simone; Bordone, Paolo; Paris, Matteo G. A.. - In: JOURNAL OF PHYSICS. COMPLEXITY. - ISSN 2632-072X. - 7:(2026), pp. 025001-1-025001-17. [10.1088/2632-072X/ae5439]
Benedetti, Claudia; Ragazzi, Giovanni; Cavazzoni, Simone; Bordone, Paolo; Paris, Matteo G. A.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1403228
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