Figure | Operation principle of the monolithic microcavity-metalens interfaces. (a) Schematics of the monolithic microcavity-metalens interface. A QD-micropillar single-photon device emits bright and ...
A research team has demonstrated the first nonlinear metasurface with engineered nonlocality, that simultaneously delivers high‑Q resonance enhancement and pixel‑level control of the wavefront of ...
A joint research team led by Professor Park Kyoung-Duck and Associate Director Suh Yung Doug of the Center for Multidimensional Carbon Materials within the Institute for Basic Science (IBS) has ...
Morning Overview on MSN
A room-temperature quantum device just used twisted light to entangle photons with electrons — clearing one of the biggest hurdles in quantum technology
Most quantum devices need to be chilled to near absolute zero to work. A new chip built at Stanford University does not. In a ...
Everyday life on the internet is insecure. Hackers can break into bank accounts or steal digital identities. Driven by AI, attacks are becoming increasingly sophisticated. Quantum cryptography ...
Physicists have developed a spectral-filtering technique that strips away unwanted extra photons from quantum light sources, tackling one of the most persistent obstacles in quantum optics. The method ...
Metasurface converts Gaussian beams to uniform light via polarization encoding, boosting NMR co-magnetometer sensitivity 23% for compact quantum sensors. (Nanowerk News) Nuclear magnetic ...
Nanostructured material traps excitons and removes excess charge, boosting room temperature light emission and enabling bright stable quantum light sources. The achievement overcomes a longstanding ...
GA, UNITED STATES, February 4, 2026 /EINPresswire.com/ — High-precision magnetic sensors rely on uniform light to polarize atomic spins, yet most laser beams ...
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