Towards the engineering of a quantum key distribution receiver robust to ambient light

Abstract: Quantum Key Distribution (QKD) has the potential to secure indoor optical wireless links. In a typical room scenario, an indoor optical wireless link will have a transmitter on the ceiling and a receiver on a desk. Ambient light from room (typically LED) lighting on the ceiling and sunlight coming through the windows present a challenging environment for free-space QKD links to operate, and a key challenge is to mitigate the noise induced by ambient light, particularly sunlight. A combination of spectral and s… Show more

“…Also, at ~ 1370 nm there is an absorption band due to water in the atmosphere, and the counts from solar radiation are ~50 dB lower than at visible wavelengths. Operating a QKD system in both these wavelength regimes is possible if the link length is much shorter than the path length that any interfering radiation travels from its source to the QKD receiver (see [9] for more details).…”

Building a quantum wireless network

“…Also, at ~ 1370 nm there is an absorption band due to water in the atmosphere, and the counts from solar radiation are ~50 dB lower than at visible wavelengths. Operating a QKD system in both these wavelength regimes is possible if the link length is much shorter than the path length that any interfering radiation travels from its source to the QKD receiver (see [9] for more details).…”

Building a quantum wireless network