Features and Benefits
• Radiance >40mW/mm².sr.nm (wavelength dependent)
- Fastest measurements
• Very low noise and excellent spatial stability
- Precise & repeatable results
• Dual beam output or higher-output Single-beam
(using integrated Retro-reflector) for flexibility
- For optical flexibility
• Compact lamphouse with water-cooling and
clean construction
- Long life and stability
• Extreme high brightness across broad spectrum
- UV-Vis-NIR (170nm – 2100nm)
• Electrodeless operation
- Long life and low cost of ownership
• Electronic optical output control
- Light attenuation
EQ-77 LDLS
™
High-Brightness, Long-Life, Broadband
Laser-Driven Light Source
Applications
• Semiconductor Metrology & Inspection
• Monochromator Source
• UV-Vis-NIR Spectroscopy
• Photoemission Electron Microscopy (PEEM)
• Materials Characterization
• Advanced Imaging
• Thin Film Measurements
Based on the highly successful Laser-Driven Light Source
(LDLS) technology, the EQ-77 offers the highest radiance and
irradiance available in a truly broadband white light source.
The EQ-77 features a compact lamp house, with clean con
-
struction that ensures long life and ultimate stability. With a
170nm-2100nm wavelength range and a single-beam output
with retro-reflector, the EQ-77 is flexible for a broad variety
of applications.
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 extreme high
brightness and power 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 in
-
efficient, 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 revolu
-
tionary single light source technology called the LDLS™ Laser-
Driven Light Source* that enables extreme high brightness, with
a relatively flat spectrum, from 170nm through visible and
beyond, combined with life time an order of magnitude longer
than traditional lamps. The LDLS technology is fully embodied
in the EQ-77 — an extremely bright and stable, compact CW
broadband source that is specifically designed for critical
spectroscopic and imaging applications.
* Multiple Patents Worldwide