Cobolt CW solid-state laser operates at 515 nm

Nov. 3, 2011
The Fandango continuous-wave (CW) solid-state laser operates at a 515 nm fixed wavelength, with output powers of 25, 50, 100, and 150 mW.
Cobolt Fandango CW solid-state laser
Cobolt Fandango CW solid-state laser
Cobolt Fandango CW solid-state laser
Cobolt Fandango CW solid-state laser
Cobolt Fandango CW solid-state laser
Cobolt Fandango CW solid-state laser
The Fandango continuous-wave (CW) solid-state laser operates at a 515 nm fixed wavelength, with output powers of 25, 50, 100, and 150 mW. The single longitudinal mode laser has noise <0.3% rms, spectral linewidth typically <30 MHz, and beam quality of M2<1.1. Manufactured using proprietary HTCure Technology, it is designed to withstand shock and extreme temperatures.Cobolt AB
Solna, Sweden
[email protected]More Products----- PRESS RELEASE Product release Cobolt Fandango™ 515 nm – now with 150 mW output power from the same small package! Cobolt AB, Swedish manufacturer of low-noise DPSS lasers, announces the release of a higher power model of its unique 515 nm solid-state laser. The Cobolt Fandango™, now available with up to 150 mW CW output power from the same small package, is not only perfectly suited for power demanding fluorescence analysis applications such as confocal microscopy, high-speed plate reading and single molecule analysis, but now with even higher output power, as a general all solid state alternative to bulky Ar+ gas lasers. The Cobolt Fandango™ is a continuous-wave solid-state laser operating at a fixed wavelength 515 nm and with output powers of 25 mW, 50 mW, 100 mW and now 150 mW. It is a single longitudinal mode laser, with very low noise (<0.3 % rms), narrow spectral line width (typically <30 MHz) and exceptionally high beam quality (M2<1.1). The laser is manufactured using Cobolt’s proprietary HTCureTM Technology in a compact (50x50 mm) and hermetically sealed package, which provides a very high level of immunity to varying environmental conditions and exceptional reliability. Lasers built using the HTCureTM Technology have shown to withstand multiple 60G mechanical shocks in operation without any sign of degraded performance. They can be exposed to extreme temperatures (>100°C), and are insensitive to pressure and humidity. The laser controller is an ultra-compact unit in either a CDRH version or OEM version. It is built on a robust platform with mounting holes for convenient installation and optimum heat dissipation. It is remotely controllable for operation and monitoring of the laser system via digital (RS-232) or analog interfaces. About Cobolt AB Cobolt supplies compact and efficient diode-pumped solid-state lasers in the visible and near IR regions, for stand-alone use or OEM integration in equipment for bio-analysis, imaging, range finding and displays. Cobolt lasers are built on proprietary PPKTP technology in a patent pending manufacturing technique of HTCureTM technology and combine top-class wall-plug efficiency with low noise and compact size. -----Follow us on TwitterSubscribe now to Laser Focus World magazine; it's free!
About the Author

LFW Staff

Published since 1965, Laser Focus World—a brand and magazine for engineers, researchers, scientists, and technical professionals—provides comprehensive global coverage of optoelectronic technologies, applications, and markets. With 80,000+ qualified print subscribers in print and over a half-million annual visitors to our online content, we are the go-to source to access decision makers and stay in-the-know.

Sponsored Recommendations

How Precision Motion Systems are Shaping the Future of Semiconductor Manufacturing

March 28, 2024
This article highlights the pivotal role precision motion systems play in supporting the latest semiconductor manufacturing trends.

Understanding 3D Printing Tolerances: A Guide to Achieving Precision in Additive Manufacturing

March 28, 2024
In the world of additive manufacturing, precision is paramount. One crucial aspect of ensuring precision in 3D printing is understanding tolerances. In this article, we’ll explore...

Automation Technologies to Scale PIC Testing from Lab to Fab

March 28, 2024
This webinar will cover the basics of precision motion systems for PIC testing and discuss the ways motion solutions can be specifically designed to address the production-scale...

Case Study: Medical Tube Laser Processing

March 28, 2024
To enhance their cardiovascular stent’s precision, optimize throughput and elevate part quality, a renowned manufacturer of medical products embarked on a mission to fabricate...

Voice your opinion!

To join the conversation, and become an exclusive member of Laser Focus World, create an account today!