Not all defects are visible with the same microscope. Explore how resolution, contrast, and signal interpretation shape semiconductor failure investigations.

Investigating laser technologies in bioelectronics, this review highlights optical principles that optimize fabrication ...

Research shows that external impulses in non-reciprocal optical solitary waves can exceed expected momentum responses, ...

FCS provides critical advantages in proteomics, enabling non-destructive analysis of molecular dynamics and protein interactions in live environments.

From 24 to 26 March, IDS Imaging Development Systems GmbH will be presenting innovations in image processing at LogiMAT 2026 ...

Colloidal quantum dots, typically a few nanometers in size, exhibit size-dependent optical properties through quantum ...

We could shoot light at particle blobs and see them melt under the microscope, or shine a light so that random blobs of particles ordered themselves into crystals. We could also remove specific ...

Researchers led by physicists at the University of Bath have found that adding a twist during the fabrication of optical fibres creates a more robust pathway for light, minimising the effects of ...

Photo-reflectance spectroscopy enhances semiconductor quality control with sensitive, contactless measurements of band structure and electric fields in devices.

A team of physicists from the University of Ottawa have developed a new theoretical model that shines new light on how scientists understand the way lasers interact with dense matter, such as solids ...

At shorter wavelengths (400–1,100 nm), waveguide losses fundamentally increase due to two primary factors. First, scattering losses become more pronounced as the optical wavelength approaches the ...

Why even look at interstellar objects? The discovery of interstellar objects offers a rare glimpse into the makeup and behavior of material beyond our solar system. Unlike bodies that formed locally, ...