Quantum Teleportation in Optical Fiber: Coexistence with 400 Gbps Communications
The episode highlights an experiment in quantum teleportation conducted over a 30.2 km optical fiber, simultaneously transmitting a classical signal at 400 Gbps. The experiment demonstrates the feasibility of coexisting quantum and classical signals, achieving high teleportation fidelity even with high power levels of the classical signal. This outcome marks a significant step towards the development of hybrid networks that integrate high-speed classical communications with quantum functionalities, reducing infrastructure costs and enabling new applications in fields such as cybersecurity and distributed quantum computing. The research focuses on noise management and wavelength optimization to ensure compatibility between the two types of signals. Future prospects include the integration of quantum memories and the implementation of entanglement swapping to enable large-scale quantum networks.