From Superpolished Substrates to Nonlinear Crystals, New Laser Optics are Here to Improve Your High-Power Laser Applications
Nonlinear Crystals consist of β-barium borate (BBO) or lithium triborate (LBO) and feature anti-reflection (AR) coated surfaces with 20-10 surface quality. The surface flatness specifications for each crystal type are λ/8 and λ/10 for BBO and LBO options respectively. With damage thresholds up to 10 J/cm2 (@ 1064 nm, 10 ns 10 Hz), these crystals are ideal for are used ideal for frequency conversion of Ti:Sapphire and Yb:doped lasers.
TECHSPEC® Superpolished Substrates feature ≤1Å RMS surface roughness on both sized making these window substrates highly superior for reduced scatter or use with UV or high-power lasers. The low scatter of these substrates also makes them ideal substrate options for high-quality ion-beam sputtered (IBS) AR or reflective coatings. Additional applications for these superpolished windows include cavity-ring down spectroscopy, scatterometry, and UV laser eye surgery.
To view these, and many more exciting new products offered by Edmund Optics, visit the new products page at www.edmundoptics.eu.
About EO:
Edmund Optics® (EO) is a leading producer of optics, imaging, and photonics technology. Supporting the R&D, electronics, semiconductor, pharmaceutical and biomedical markets around the globe; EO products are used in a variety of applications ranging from DNA sequencing or retinal eye scanning to high-speed factory automation. Its huge inventory of stock and custom optics allows EO to take customer projects from design to prototype and volume production. EO’s manufacturing capabilities combined with its global distribution network and its extensive product catalogue has earned it the position of one of the world’s largest supplier of optical components.
Edmund Optics
Isaac-Fulda-Allee 5
55124 Mainz
Telefon: +49 (6131) 5700-0
Telefax: +49 (6131) 2172-306
http://www.edmundoptics.de
European Marketing Director
Telefon: +49 (6131) 5700-038
E-Mail: ahuebscher@edmundoptics.de