MOUNTAIN VIEW, CA — (Marketwire) — 01/31/13 — , an innovative producer of (IR, UV and visible wavelengths), has updated its "Rainbow" laser source. Developed for use in , the Rainbow system is a prototype fiber-based source of user-switchable, visible-wavelength laser pulses. Among the new enhancements, the system features a significantly smaller laser head."Our newest Rainbow laser iteration still features the high-energy pulses of user-selectable, visible-wavelength output
MOUNTAIN VIEW, CA — (Marketwire) — 01/15/13 — , an innovative producer of (IR, UV and visible wavelengths), announces the introduction of "G2" — a family of short-pulsed, high-power, high-repetition-rate fiber laser sources that can produce either ultraviolet (UV), green or infrared (IR) output. G2 lasers are intended for applications that demand and rapid throughput, including microvia drilling, stereolithography and printed circuit board trenching."Mobius- standard G2 las
MOUNTAIN VIEW, CA — (Marketwire) — 11/15/12 — , an innovative producer of (IR, UV and visible wavelengths), has appointed Manuel Martinez its Vice President of Engineering."We are pleased to announce Mr. Martinez-s promotion to VP of engineering," said Manuel Leonardo, Mobius Photonics CTO. "Mr. Martinez has brought a new level of engineering discipline and structure to Mobius. His strengths in implementing stringent processes for product introductions and quality control, am
MOUNTAIN VIEW, CA — (Marketwire) — 01/17/12 — , an innovative producer of (IR, green, and UV laser), has been granted a United States patent for "Fiber MOPA System without Stimulated Brillouin Scattering." The patent number is 8,009,705.The patent covers an optical fiber-based master oscillator power amplifier (MOPA) system that avoids stimulated Brillouin scattering (SBS). SBS is a spontaneous phenomenon of light scattering that can occur in an optical fiber, reducing a fiber la
MOUNTAIN VIEW, CA — (Marketwire) — 10/27/11 — , an innovative producer of (IR, green, and UV laser), announces that its "G1R2" laser source has been used in experiments at the Max Planck Institute for Biophysical Chemistry (Göttingen, Germany). The experiments demonstrated that a laser-based fluorescence microscopy technique called stimulated emission depletion () microscopy could be used to image intact, living, multicellular organisms.Over the past few years, much research
