Makarov V.Abrikosov A.Chaiwongkhot P.Fedorov A.K.Huang A.Kiktenko E.Petrov M.Ponosova A.Ruzhitskaya D.Tayduganov A.Trefilov D.Zaitsev K.Mahidol University2024-11-212024-11-212024-10-01Physical Review Applied Vol.22 No.4 (2024)https://repository.li.mahidol.ac.th/handle/20.500.14594/102096A commercial quantum key distribution (QKD) system needs to be formally certified to enable its wide deployment. The certification should include the system's robustness against known implementation loopholes and attacks that exploit them. Here we ready a fiber-optic QKD system for this procedure. The system has a prepare-and-measure scheme with decoy-state BB84 protocol, polarization encoding, a qubit source rate of 312.5 MHz, and is manufactured by QRate. We detail its hardware and postprocessing. We analyze the hardware for known implementation loopholes, search for possible new loopholes, and discuss countermeasures. We then amend the system design to address the highest-risk loopholes identified. We also work out technical requirements on the certification lab and outline its possible structure.Physics and AstronomyArticleSCOPUS10.1103/PhysRevApplied.22.0440762-s2.0-8520895868323317019