レーザーEXPO O-07
Exail Photonics division helps photonics engineers all around the world get the most out of light by providing high-performance, innovative and reliable photonic solutions. We offer specialty fibers, Bragg gratings and optical modulation solutions based on its integrated modulators for a variety of applications: optical communications, fiber lasers and amplifiers, fiber optics sensors, space and sciences.
From the design to the manufacturing, Exail masters the complete production chain of specialty fibers, Bragg gratings, high speed modulation solutions and micro-optic assemblies. We provide turn-key laser systems delivering continuous and sub-ns pulsed signal wave, as well as instruments. Our solutions support a very wide variety of applications including high speed communications, fibers-based sensing, space, science, medical, and quantum technologies.
Exail’s Low Vπ LiNbO3 phase modulator excels in coherent beam combination, leveraging a single laser source with fine linewidth through multiple amplifications and precise phase modulators. In spectral beam combination, the modulator facilitates combining different laser power beams with distinct wavelengths, achieving uniform intensity distribution. Key optical features include an annealed proton exchange process, very low insertion loss (<3dB), high optical power handling (up to 300mW), and stable performance over temperature and time. The Vπ of only 2V@50 kHz minimizes RF and power consumption, while the device’s DC coupling option mitigates the RAM effect for optimal efficiency.
Exail’s aluminum-coated fibers offer a wide operating temperature range, up to +400°C. They are hermetic to hydrogen and water vapor, mitigating hydrogen darkening in hydrogen-rich environments. The aluminum coating obtained by Exail and Photonics Bretagne is much smoother than what could be obtained by the competition. Exail’s radiation-resistant optical fibers (rad-hard, single mode, multi-mode) are designed to mitigate the effects of Radiation-Induced Attenuation and extend the fiber’s lifetime in radiative environments. Optical fibers with aluminum coating are suitable for applications in sensing and monitoring, such as Distributed Temperature Sensing, in nuclear environments, oil and gas, high-energy physics experiments, or space.
Exail's Intelligent Laser Systems (ILS) enables precise control of lasers amplitude, phase, and absolute frequency with fast tunability. The ILS is mainly dedicated to manipulating rubidium atoms with 780 nm laser light (other wavelengths are possible for other species). Integrated micro-optics benches (iMOB) - a compact and transportable fiber pigtailed free-space micro-optical bench built using a fully active alignment method, offering stability and reproducibility of the measurements by eliminating the needs of regular alignment during system turned on. The integration of the ILS and the iMOB enables real applications in all quantum technology fields, for both academic laboratories and industry.
Exail Photonics division helps photonics engineers all around the world get the most out of light by providing high-performance, innovative and reliable photonic solutions. We offer specialty fibers, Bragg gratings and optical modulation solutions based on its integrated modulators for a variety of applications: optical communications, fiber lasers and amplifiers, fiber optics sensors, space and sciences.
From the design to the manufacturing, Exail masters the complete production chain of specialty fibers, Bragg gratings, high speed modulation solutions and micro-optic assemblies. We provide turn-key laser systems delivering continuous and sub-ns pulsed signal wave, as well as instruments. Our solutions support a very wide variety of applications including high speed communications, fibers-based sensing, space, science, medical, and quantum technologies.
Exail’s Low Vπ LiNbO3 phase modulator excels in coherent beam combination, leveraging a single laser source with fine linewidth through multiple amplifications and precise phase modulators. In spectral beam combination, the modulator facilitates combining different laser power beams with distinct wavelengths, achieving uniform intensity distribution. Key optical features include an annealed proton exchange process, very low insertion loss (<3dB), high optical power handling (up to 300mW), and stable performance over temperature and time. The Vπ of only 2V@50 kHz minimizes RF and power consumption, while the device’s DC coupling option mitigates the RAM effect for optimal efficiency.
Exail’s aluminum-coated fibers offer a wide operating temperature range, up to +400°C. They are hermetic to hydrogen and water vapor, mitigating hydrogen darkening in hydrogen-rich environments. The aluminum coating obtained by Exail and Photonics Bretagne is much smoother than what could be obtained by the competition. Exail’s radiation-resistant optical fibers (rad-hard, single mode, multi-mode) are designed to mitigate the effects of Radiation-Induced Attenuation and extend the fiber’s lifetime in radiative environments. Optical fibers with aluminum coating are suitable for applications in sensing and monitoring, such as Distributed Temperature Sensing, in nuclear environments, oil and gas, high-energy physics experiments, or space.
Exail's Intelligent Laser Systems (ILS) enables precise control of lasers amplitude, phase, and absolute frequency with fast tunability. The ILS is mainly dedicated to manipulating rubidium atoms with 780 nm laser light (other wavelengths are possible for other species). Integrated micro-optics benches (iMOB) - a compact and transportable fiber pigtailed free-space micro-optical bench built using a fully active alignment method, offering stability and reproducibility of the measurements by eliminating the needs of regular alignment during system turned on. The integration of the ILS and the iMOB enables real applications in all quantum technology fields, for both academic laboratories and industry.