Ultrawide-bandgap semiconductors—such as diamond—are promising for next-generation electronics due to a larger energy gap ...

Second, interferometry is applied to distinguish OL patterns in TML and non-TML states. For OL patterns in TML state, after interfering with a plane wave, it is shown that all dark zones possess ...

Physicists from Imperial College London have achieved a groundbreaking milestone in quantum physics by reimagining the classic double-slit experiment—this time in the dimension of time. Led by ...

Comparing the imaging methodology presented here with established electron microscopy techniques, the closest conceptual similarities are found with respect to two-photon PEEM since in both cases, ...

Researchers have built a deep-ultraviolet microscope to study hard-to-analyze materials like diamond, offering a new way to probe their electronic and thermal properties at the nanoscale. This ...

A new technical paper titled “Controlling Speckle Contrast Using Existing Lithographic Scanner Knobs to Explore the Impact on ...

Optical science advances non-destructive testing (NDT) through technologies like laser ultrasonics, shearography, and optical ...

The basic concept is to store interference patterns caused by two beams of coherent light intersecting as they pass through a volume of light-sensitive material (Box 1). The material's physical ...

Light pollution has long troubled astronomers, who generally shy away from deep sky observing under full Moon skies. The ...

These satellites passively collect signal degradation data, enabling the system to generate near-real-time maps of interference patterns worldwide. “We’re focused on delivering actionable ...