Philipp Sohr
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View article: Quantum communication networks with defects in silicon carbide
Quantum communication networks with defects in silicon carbide Open
Quantum communication promises unprecedented communication capabilities enabled by the transmission of quantum states of light. However, current implementations face severe limitations in communication distance due to photon loss. Silicon …
View article: Overcoming Noise Limitations in QKD with Quantum Privacy Amplification
Overcoming Noise Limitations in QKD with Quantum Privacy Amplification Open
High-quality, distributed quantum entanglement is the distinctive resource for quantum communication and forms the foundation for the unequalled level of security that can be assured in quantum key distribution. While the entanglement prov…
View article: Remotely Establishing Polarization Entanglement Over Noisy Polarization Channels
Remotely Establishing Polarization Entanglement Over Noisy Polarization Channels Open
The faithful distribution of entanglement over noisy channels is a vital\nprerequisite for many quantum technological applications. Quantum information\ncan be encoded in different degrees of freedom (DOF) of photons, where each\nencoding …
View article: Experimental Single-Copy Entanglement Distillation
Experimental Single-Copy Entanglement Distillation Open
The phenomenon of entanglement marks one of the furthest departures from classical physics and is indispensable for quantum information processing. Despite its fundamental importance, the distribution of entanglement over long distances th…