Measurement-device-independent quantum random number generation over 23 Mbps with imperfect single-photon sources
2024
Online
report
Quantum randomness relies heavily on the accurate characterization of the generator implementation, where the device imperfection or inaccurate characterization can lead to incorrect entropy estimation and practical bias, significantly affecting the reliability of the generated randomness. Measurement-device-independent (MDI) quantum random number generation (QRNG) endeavors to produce certified randomness, utilizing uncharacterized and untrusted measurement devices that are vulnerable to numerous attack schemes targeting measurement loopholes. However, existing implementations have shown insufficient performance thus far. Here, we propose a high-speed MDI-QRNG scheme based on a robust measurement tomography approach against the imperfection of single-photon sources. Compared with the conventional approach, the decoy-state method is introduced to obtain more accurate tomography results and a tighter lower bound of randomness. Finally, by using a high-speed time-bin encoding system, we experimentally demonstrated the scheme and obtained a reliable min-entropy lower bound of $7.37 \times 10^{-2}$ bits per pulse, corresponding to a generation rate over 23 Mbps, which substantially outperforms the existing realizations and makes a record in discrete-variable semi-device-independent QRNGs.
Comment: 20 pages, 9 figures, including appendixes. Accepted for publication in Quantum Science and Technology
Titel: |
Measurement-device-independent quantum random number generation over 23 Mbps with imperfect single-photon sources
|
---|---|
Autor/in / Beteiligte Person: | Nie, You-Qi ; Zhou, Hongyi ; Bai, Bing ; Xu, Qi ; Ma, Xiongfeng ; Zhang, Jun ; Pan, Jian-Wei |
Link: | |
Veröffentlichung: | 2024 |
Medientyp: | report |
Schlagwort: |
|
Sonstiges: |
|