Guide

The collaboration between Professor Szameit’s research group at the University of Rostock and researchers from the Albert-Ludwigs-Universität Freiburg has yielded groundbreaking results in the field of quantum photonics. By combining topologically protected wave propagation with the interference of photon pairs, the researchers have unlocked new possibilities in optical quantum technologies. Scientific innovation often emerges from
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Photonic alloys, a unique combination of two or more photonic crystals, hold great promise for controlling the propagation of electromagnetic waves in waveguides. While these materials have immense potential, they often suffer from light backscattering, which hinders the efficient transmission of data and energy. Overcoming this limitation is crucial for unlocking the full capabilities of
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The field of quantum computing holds enormous promise for advancements in human health, drug discovery, and artificial intelligence. Quantum computers have the ability to solve incredibly complex problems millions of times faster than traditional supercomputers. However, a major obstacle that researchers face is the challenge of connecting qubits—or quantum bits—with atomic precision. A research team
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