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In OPH, 3+1D de-Sitter space emerges as the conformal group of the S² screen supplies the 3+1D Lorentz symmetry, while modular flow and generalized entropy stationarity project bou...
Author(s): Sophia ChenResearchers exploit quantum entanglement to measure the interference of light signals from two distant detectors, opening a path toward quantum-enhanced astro...
Combining holographic imaging with ultrafast spectroscopy enables observing short-lived electronic and magnetic phenomena key to novel energy materials.
At NAB 2026, 4DV.ai and OBSBOT teamed up to show what professional 4D Gaussian Splatting volumetric capture looks like once it leaves the research lab. Their joint installation use...
Author(s): Jacquelyn HoA new microscope captures how atoms rearrange themselves when they are illuminated inside an optical cavity.[Physics 19, 47] Published Mon Apr 06, 2026
The use of quantum entanglement to enable selective image transmission through complex media can enhance applications from imaging to secure communication The post Entangled photon...
A novel imaging method captures ultrafast events with unprecedented detail by combining laser encoding and AI reconstruction. Researchers have introduced a new imaging method that...
Fluoride-doped perovskite nanocrystal glass achieves record blue quantum yield and powers single-laser multicolor holographic displays at 20,000 PPI resolution.
Author(s): Michael SchirberA new metamaterial design eliminates internal distortions that can adversely affect applications in cloaking and sensing.[Physics 19, s60] Published Wed...
A Mechanism for the ER=EPR Bridge via Stereoscopic Data FusionContinue reading on Medium »
In the rapidly evolving field of optical engineering, the accurate measurement of wavefront distortions remains a critical challenge, especially when dealing with large dynamic ran...
Researchers have, for the first time, directly visualized how electronic patterns known as charge density waves evolve across a phase transition. Using cutting-edge microscopy, the...
Point a conventional 3D sensor at a chrome-plated ball bearing and watch it fail. The laser light that should bounce back to the detector and reveal the object’s geometry instead s...
Author(s): Ryan WilkinsonExperiments shed light on the uncertain optical response of so-called stealthy hyperuniform materials.[Physics 19, s59] Published Thu May 07, 2026
In the rapidly evolving domain of wireless communications, the relentless pursuit of increased data capacity and spectral efficiency continues to drive scientific innovation. A bre...
A compact approach enables sharp light structures that propagate over long distances.
By capturing intensity and phase changes in a single measurement, new method could help scientists design new materials, explore biological processes and advance high-power lasers.
Moisture in the air changes how a tiny photonic structure reflects light, exposing concealed patterns for encryption, authentication and sensing.
Author(s): Ryan WilkinsonMoiré systems incorporating lead iodide can host exotic quantum states and enable near-lossless electrical transport.[Physics 19, s44] Published Wed Apr 15...
New quantum light interference insights hint at how competing processes shape coherence loss in complex systems without revealing the full picture. Researchers at Pohang University...
The NHK Broadcasting Technology Research Laboratory has developed a Light Field Head-mounted Display that is thinner and has higher resolution than existing VR display devices. It...
The proof-of-concept represents a promising start for making particle detectors less of a hassle to develop and maintain.
Intravital fluorescence microscopy has revolutionized biological research by enabling the visualization of dynamic processes within living organisms. However, a persistent obstacle...
Researchers have, for the first time, directly visualized how electronic patterns known as charge density waves evolve across a phase transition. Using cutting-edge microscopy, the...
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