Energetiq is a developer and manufacturer of advanced light sources that enable the manufacture and analysis of nano-scale structures and products. Used in complex scientific and engineering applications such as analytical instruments for life sciences and leading edge semiconductor manufacture, Energetiq’s light products are based on new technology that generates high brightness across the spectrum, from 1nm to 1000nm and beyond, with high reliability, long operating life, and in a compact package.
Energetiq’s light sources are used for: analytical spectroscopy, microscopy, and sensing in the life-sciences; lithography, metrology and photoresist development in semiconductor manufacturing; soft x-ray microscopy; and a variety of applications where synchrotron radiation and traditional arc-lamps have commonly been used.
The Technology Behind LDLS™
Researchers using light for imaging and analytical spectroscopy in a variety of applications in the life sciences and materials sciences need light sources capable of providing extremely high brightness across a broad wavelength range. Traditionally, multiple lamps (Tungsten/Halogen, Xenon-arc, Deuterium) have been used to cover this broad spectral range. However, combining multiple lamps is costly and optically inefficient, and the use of electrodes within these lamps limits their ability to achieve the high brightness or power needed for the most demanding applications. Furthermore, traditional electrode-driven light sources have short life, need to be changed frequently, and during their life the lamp output declines constantly. To address this problem, Energetiq has developed a revolutionary single-light source technology called the LDLS™ Laser-Driven Light Source that enables extreme high brightness over a broad spectral range, from 170nm through visible and beyond, combined with lifetimes an order of magnitude longer than traditional lamps.
Energetiq’s innovative LDLS technology uses a CW laser to directly heat a Xenon plasma to the high temperatures necessary for efficient deep ultraviolet production. In traditional approaches such as arc and deuterium lamps, the brightness, UV power, and lamp lifetime are limited by the use of electrodes to couple power to the plasma. The electrodeless LDLS technology creates small, high brightness plasma that allows efficient light collection, broad spectral range from the deepest UV through visible and beyond, and long lamp life.
Find here the Quick Selection Guide of LDLS lightsources