Peking university physicists unveil narwhal waves for light confinement

Researchers at Peking University have discovered narwhal-shaped wavefunctions that trap light at scales far smaller than previously possible using only dielectric materials. The breakthrough, detailed in a 2025 paper, avoids the energy losses common in metal-based approaches. It opens paths to more efficient photonic devices and advanced imaging.

Physicists led by Ren-Min Ma developed the singular dispersion equation to enable extreme light confinement without metals. In experiments, they created a three-dimensional singular dielectric resonator that achieved a mode volume of 5 × 10-7 λ3. Near-field scanning confirmed the predicted power-law enhancement near the singularity and exponential decay at larger distances, matching both theory and simulations.

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Researchers at TU Wien have found strong quantum entanglement in a centimeter-sized crystal made of cerium, palladium and silicon. The finding shows that macroscopic materials can exhibit collective quantum behavior. It was published in Nature Physics in 2026.

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Researchers at Nanjing University have identified a new quantum state of matter in a thin carbon material that electrons neither fully two-dimensional nor three-dimensional. The discovery, termed the transdimensional anomalous Hall effect, emerged unexpectedly during experiments in magnetic fields. Lei Wang and his team confirmed the phenomenon after a year of analysis.

Researchers have found a way to alter the direction of energy flow in turbulence, challenging a theory established in 1941. The work, conducted at the University of Pittsburgh with Italian collaborators, was published in Science Advances in 2025.

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An international research team has developed a single mathematical framework that explains the unusual rhythmic behavior of breather laser pulses. The breakthrough unites two previously separate regimes of laser dynamics for the first time.

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