If breast cancer is detected at stage I, there is a 99% chance the patient will survive for the next five years at least.

This design enables a narrow linewidth (typically 20 MHz at 450 nm) and wavelength precision. Additionally, the lasers ...

The laser light interacts with the sample, and the scattered light is collected and analyzed by the spectrometer, producing a Raman spectrum that represents the molecular fingerprint of the sample.

The Laser-Induced Breakdown Spectroscopy (LIBS ... with a LIBS handheld device for in field measurements and additional components for LIBS and Raman spectroscopy setups, both prototypes as well as ...

Use precise geolocation data and actively scan device characteristics for identification. This is done to store and access ...

The new technology involves subjecting the blood's plasma to laser beam analysis (a technology called Raman spectroscopy) and then using a device called a spectrometer to analyze the ways in which ...

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 ...

Our ultra-stable, high performance, single frequency diode-pumped solid-state lasers are used in a wide range of demanding and emerging applications, including semiconductor inspection, lithography, ...

Over 42,000 of DPSS lasers produced for world-leading industrial companies. Products include CW and pulsed Q-switched lasers. Main applications: mass spectrometry, laser microdissection, Raman ...