PriTel Highlights Fiber Laser and Optical Amplifier Portfolio for High-Speed Photonic Applications

Posted  by GoPhotonics

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PriTel, a specialist in sub-picosecond pulse fiber lasers and multiplexing technologies, offers a portfolio of fiber-based photonic components, including ultrafast lasers, optical amplifiers, pulse control systems, and wavelength conversion modules designed for high-speed optical communication and research applications. The company’s solutions operate across 1550 nm and 1060 nm wavelength platforms and support data rates from 2.5 Gbps to beyond 160 Gbps.

Its ultrafast optical clock (UOC) sources provide repetition rates from 5 GHz to 40 GHz, while optical clock multipliers (OCM) extend these frequencies up to 320 GHz for high-speed signal processing and optical time-division multiplexing. The femtosecond fiber laser (FFL) series delivers pulse widths from 10 ps down to 150 fs with repetition rates in the 20 MHz - 50 MHz range.

For pulse control, PriTel offers optical pulse pickers (OPP) with picking ratios of 1 in 2n or 10n and extinction ratios greater than 35 dB, along with fiber-based pulse compressors (FP) for reducing pulse duration. The company also provides second and third harmonic generation (SHG/THG) modules that convert infrared wavelengths into visible outputs in the 764 nm - 782 nm and 510–520 nm ranges.

The portfolio further includes tunable filter assembly (TFA) and tunable bandpass/tunable wavelength filter (TBTWF) systems for wavelength selection. In amplification, PriTel offers a range of fiber amplifiers, including low-power, high-power, polarization-maintaining (PMFA), single polarization (SPFA), high peak power (HPP FA), low-noise high-power (LNHPFA), L-band, and 1 µm amplifiers.

These technologies are used in applications such as ultra-high-speed optical communications, optical time-division multiplexing, metrology, nonlinear fiber characterization, and laser ranging

PriTel’s solutions are engineered for stability, reliability, and customization, making them suitable for a wide range of applications such as ultra-high-speed optical communications, metrology, nonlinear fiber characterization, and laser-based sensing systems.

Click here to learn more about sub-picosecond amplifiers.


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