One of the notable advancements in laser spectroscopy is the development of Gas in Scattering Media Absorption Spectroscopy (GASMAS), which employs near-infrared light to detect molecular oxygen ...

The physical interaction between two or more systems, also known as coupling, can give rise to unique and unexpected effects.

of the Chinese Academy of Sciences recently developed a neural network-based absorbance recovery method to improve the ...

The objective of the research in the atomic and molecular laser spectroscopy laboratory is to gain knowledge about the basic properties of ions and neutral atoms and molecules, with a particular ...

This spectroscopy approach uses a quartz tuning fork to detect gas absorption by electronically measuring its vibrations at a resonant frequency of 12,420 Hz, induced by a laser modulated at the ...

Fourier-transform spectroscopy: A technique that collects spectral data over a range of wavelengths simultaneously, providing high-resolution spectra. This Nature Research Intelligence Topic ...

According to a study published in Science Advances, an international collaboration of engineers and physicists has developed a method to enhance the capabilities of advanced spectroscopy using quantum ...

This spectroscopy approach uses a quartz tuning fork to detect gas absorption by electronically measuring its vibrations at a resonant frequency of 12,420 Hz, induced by a laser modulated at the ...

Nonlinear optical frequency conversion is an important enabling technology for a variety of applications, especially laser spectroscopy. Molecular spectroscopy experiments typically require light in ...

When laser spectroscopy is combined with microscopy, spatial variations of the chemical compositions of both organic and inorganic samples can be precisely determined. One of the spectroscopic ...