We consider all-optical networks from a quantum perspective. We show that optimal quantum receivers allow a similar to 57% decrease in energy consumption of all-optical amplifiers. Furthermore, we prove that quantum receivers allow for a logarithmic scaling of the system capacity with the number of pulses per second, while standard Shannon-type systems are limited by the transmit power. Based on our findings we argue for a new approach to optical communication network design, wherein in-line amplifiers are operated at very low gains and in conjunction with high-spectral-bandwidth fiber and a quantum receiver, enhancing data transmission in a practically relevant quantum limit.
Nötzel, J., Rosati, M. (2023). Operating Fiber Networks in the Quantum Limit. JOURNAL OF LIGHTWAVE TECHNOLOGY, 41(22), 6865-6874 [10.1109/jlt.2023.3295076].
Operating Fiber Networks in the Quantum Limit
Rosati, Matteo
2023-01-01
Abstract
We consider all-optical networks from a quantum perspective. We show that optimal quantum receivers allow a similar to 57% decrease in energy consumption of all-optical amplifiers. Furthermore, we prove that quantum receivers allow for a logarithmic scaling of the system capacity with the number of pulses per second, while standard Shannon-type systems are limited by the transmit power. Based on our findings we argue for a new approach to optical communication network design, wherein in-line amplifiers are operated at very low gains and in conjunction with high-spectral-bandwidth fiber and a quantum receiver, enhancing data transmission in a practically relevant quantum limit.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
