The access network segment represents the end point for the provision of quantum key distribution (QKD) services, offering secure communication to the end users. Yet the integration of QKD into legacy passive optical networks (PONs) is very challenging due to the high losses of the passive optical distribution network (ODN) and the presence of upstream and downstream classical channels belonging to many coexisting PON standards, which are the source of scattered Raman noise photons. In this study we evaluate the sustainability of discrete variable QKD services in access networks supporting one or more PON standards, evidencing the necessity of ODN architectures able to enhance the QKD performance and facilitate the key-exchange over the legacy PON links.
Is the access network ready for Quantum Key Distribution?
Gagliano, Alessandro;Gatto, Alberto;Martelli, Paolo;Boffi, Pierpaolo;Parolari, Paola
2024-01-01
Abstract
The access network segment represents the end point for the provision of quantum key distribution (QKD) services, offering secure communication to the end users. Yet the integration of QKD into legacy passive optical networks (PONs) is very challenging due to the high losses of the passive optical distribution network (ODN) and the presence of upstream and downstream classical channels belonging to many coexisting PON standards, which are the source of scattered Raman noise photons. In this study we evaluate the sustainability of discrete variable QKD services in access networks supporting one or more PON standards, evidencing the necessity of ODN architectures able to enhance the QKD performance and facilitate the key-exchange over the legacy PON links.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
