Physicists have developed a revolutionary method to track light-matter interactions inside cavities with incredible precision. Their hybrid cavity design unlocks new scientific frontiers, from quantum ...

Xu Xiaohao from Xi'an Institute of Optics and Precision Mechanics (XIOPM) of the Chinese Academy of Sciences have revealed a full-gray optical trap in structured light, which is able to capture ...

The Lumicks C-Trap® is a correlative single-molecule system combining optical tweezers with multicolour fluorescence imaging. This enables simultaneous manipulation of trapped molecules of interest ...

Researchers have developed a novel experimental platform to measure the electric fields of light trapped between two mirrors with a sub-cycle precision. These electro-optic Fabry-Perot resonators will ...

In a significant advancement in the field of cavity electrodynamics, the team of physicists have introduced a novel method to measure electric fields ...

Imagine a magnifying glass concentrating sunlight to a single point; that's similar to how the laser beam works in optical tweezers. The particles being manipulated have to let light pass through them ...

using beams of light of different colors, a pair of glass nanospheres. Within the optical trap, these spheres oscillate around their equilibrium point with very specific frequencies, allowing for ...

Caption This is a diagram of a NIST ion trap that incorporates an optical fiber to collect light emitted by the ions (electrically charged atoms). Individual electrodes used to trap an ion 30 to ...

When 532 nm excitation light irradiates the aggregated region ... Keywords: surface-enhanced Raman scattering / optofluidic / single-beam optical trap / tapered optical fibers Professor Jie ...