A study of polarization compensation for quantum networks

Abstract: The information-theoretic unconditional security offered by quantum key distribution has spurred the development of larger quantum communication networks. However, as these networks grow so does the strong need to reduce complexity and overheads. Polarization-based entanglement distribution networks are a promising approach due to their scalability and no need for trusted nodes. Nevertheless, they are only viable if the birefringence of all-optical distribution fibres in the network is compensated to preserve … Show more

“…It has been shown that polarization can be used for atmospheric FSO [16]. The use of optical polarization in communication opens up the realm of quantum communication and quantum internet [17]. However, turbulence in the atmosphere can potentially produce impurities in quantum states.…”

Robust Free-Space Optical Communication Utilizing Polarization for the Advancement of Quantum Communication

“…It has been shown that polarization can be used for atmospheric FSO [16]. The use of optical polarization in communication opens up the realm of quantum communication and quantum internet [17]. However, turbulence in the atmosphere can potentially produce impurities in quantum states.…”

Robust Free-Space Optical Communication Utilizing Polarization for the Advancement of Quantum Communication

Five-user quantum virtual local area network with an AlGaAs entangled photon source

Near Infrared Devices and Protocols for Short Distance Quantum Key Distribution via Telecom Fibers