Control and characterization of networks are paramount steps in the development of many quantum technologies. Even for moderate-sized networks, this amounts to exploring an extremely vast parameter space in search for the couplings defining the network topology. Here, we explore the use of a genetic algorithm to retrieve the topology of a network from the measured probability distribution obtained from the evolution of a continuous-time quantum walk on the network. We show that we can successfully retrieve the topology of different networks with efficiencies above 70% in all the examined scenarios and that the algorithm is capable of efficiently retrieving the required information even in the presence of noise. Published under an exclusive license by AIP Publishing
Benedetti, C., Gianani, I. (2024). Identifying network topologies via quantum walk distributions. AVS QUANTUM SCIENCE, 6(1) [10.1116/5.0190168].
Identifying network topologies via quantum walk distributions
Gianani I.
2024-01-01
Abstract
Control and characterization of networks are paramount steps in the development of many quantum technologies. Even for moderate-sized networks, this amounts to exploring an extremely vast parameter space in search for the couplings defining the network topology. Here, we explore the use of a genetic algorithm to retrieve the topology of a network from the measured probability distribution obtained from the evolution of a continuous-time quantum walk on the network. We show that we can successfully retrieve the topology of different networks with efficiencies above 70% in all the examined scenarios and that the algorithm is capable of efficiently retrieving the required information even in the presence of noise. Published under an exclusive license by AIP PublishingI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
