MPBC and its partners Launch the World's Longest Optical Amplifier System
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TESAT and MPB Communications took an important milestone to a new performance level of optical LEO to GEO data relays: The companies successfully demonstrated a 100 Gigabit per second (Gbps) data transmission at 40 W optical output power over a distance of more than 45,000 km in a laboratory environment at MPB Communications' optical labs
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Based on the MPB Communications Inc’s (MPBC) 100W CW 1178 nm, single-mode, single frequency, linearly polarized Raman fiber amplifier (RFA), a novel European Southern Observatory (ESO) experimental laser of 63W CW at 589 nm was commissioned for on-sky operation at the Allgäuer VolksSternwarte Ottobeuren observatory in Germany and tested for two weeks in July 2021
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Explore how MPBC’s telecom and submarine amplification solutions paved the way for our success in Outer Space
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Experience cutting-edge precision and versatility with MPB Communications' fiber lasers. From enhancing STED microscopy to advancing lattice light sheet imaging, our lasers offer unmatched stability, flexible wavelengths, and high-resolution capabilities
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Remotely pumped by a single-mode, polarization-maintaining (PM) 1120-nm fiber laser, a single-frequency linearly-polarized 1178-nm Raman fiber amplifier (RFA) has been developed with a maximum continuous-wave (CW) output power of 130-W. This remotely-pumped high-power RFA system features the same modular, compact and ruggedized design as the proven SodiumStar 20/2 and provides the potential for a guide star laser with a 589-nm output power approaching 100-W, assuming a 10 to15% D2b sideband content and a typical overall conversion efficiency of a resonant second harmonic generator of ~ 70%
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Next-generation satellite constellations use optical inter-satellite links for better capacity, but RF feeder links to ground stations remain a bottleneck. To transition to all-optical links, challenges like atmospheric turbulence need to be addressed, with Laser Guide Star (LGS) adaptive optics as a key solution. A new 100-W Raman fiber amplifier (RFA) has been developed, offering high power and reliability for LGS systems. This RFA, which efficiently suppresses stimulated Brillouin scattering (SBS), has demonstrated robustness in long-term testing. Future optimization could push its power output beyond the current 100-W level, enabling more powerful guide star lasers for optical ground stations.
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We have demonstrated the unrepeatered transmission of 8 x 100 G over a span loss of 92.7 dB, achieving unprecedented reach.
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We report on the visible LGS-AO experimental facility which we are building to be installed at the 1m ESA Optical Ground Station at Observatorio del Teide, Tenerife, Canary Islands. We focus on the system aspects related to optics. The instrument will be a novel facility to perform strategic LGS-AO technology R&D in future years, demonstrating a 50+ W CW 589nm laser, uplink laser beam pre-compensation on sodium LGS in pulsed laser operation
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This paper covers optical properties of Raman Fiber Amplifiers (RFA) and Visible Raman Fiber Amplifiers (VRFA) with Second Harmonic Generator (SHG)
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MPB Communications pioneers a new generation of high-power Mode-Locked Fiber Lasers, offering compact, maintenance-free solutions generating linearly polarized, nearly transformed-limited 200 fs pulses at 80 MHz repetition rate with 1W average power. These lasers target micromachining, metrology, and multiphoton spectroscopy, catering to diverse applications in biological and medical fields
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