33 research outputs found
Toward Global Quantum Communication: Beam Wandering Preserves Nonclassicality
Tap-proof long-distance quantum communication requires a deep understanding
of the strong losses in transmission channels. Here we provide a rigorous
treatment of the effects of beam wandering, one of the leading disturbances in
atmospheric channels, on the quantum properties of light. From first principles
we derive the probability distribution of the beam transmissivity, with the aim
to completely characterize the quantum state of light. It turns out that beam
wandering may preserve nonclassical effects, such as entanglement, quadrature
and photon number squeezing, much better than a standard attenuating channel of
the same losses.Comment: published versio