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 ...

Nion – IDS presents its first fully self-developed and cost-efficient 3D camera with robust ToF technology. It delivers ...

NYU scientists are using light to precisely control how tiny particles organize themselves into crystals. Their research, ...

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

Optical percutaneous needle biopsy techniques are revolutionizing tumor diagnostics, enabling real-time analysis and improving the accuracy of tissue sampling.

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 ...

The speed of light varies in materials, impacting fiber optics, laser systems, and semiconductor lithography through complex ...

Fourier Transform Infrared (FTIR) Spectroscopy is a widely used analytical technique for identifying chemical compounds and examining molecular structures. It measures how a sample absorbs infrared ...

The NMR spectrum (¹H-NMR and ¹³C-NMR) is a graphical representation of nuclear resonance signals, with chemical shift (ppm) on the x-axis indicating the electronic environment of nuclei, the y-axis ...

Coherent light is distinct because its waves maintain a consistent phase relationship, meaning the peaks and troughs stay synchronized over both time and space. This type of light is primarily ...