S-Band Amplification Buttressed With Thulium Doped Fluoride Fiber Pumped By Laser Diodes
Furthermore, preliminary results are encouraging concerning amplification from 1485 nm to 1500 nm with continuous efforts being deployed in order to extend the amplification over the entire band using compact and robust laser diodes.
The amplified spontaneous emission (ASE) produced by this unit allows it to be used as an ASE source. The latest results show average power levels superior than –20 dBm/nm from 1450 nm to 1500nm.
"The fact that the amplification in the S-band is provided by butterfly-packaged diodes," said Dr.Jocelyn Lauzon, Director of the Photonic and Guided-Wave Optics Sector, "is innovative and imperative to keeping costs down and reducing the size of the optical components as the communication bandwidth explores new transmission wavelengths."
About INO
INO is an international leader in optics and photonics research & development and promotes expansion by providing assistance to companies seeking to be more competitive. INO concentrates its field of activities in 4 sectors which are Photonic and Guided-Wave Optics, Laser System Technologies, Photonic Materials and Processes and finally Digital and Optical Systems.
Among the 4 sectors, the Photonic and Guided-Wave Optics further specialises in the manufacturing of specialty fibers such as high attenuation fibers, photosensitive fibers, and rare earth doped fibers for both single clad and double clad configurations. INO also acts as an industry partner in the field of fiber Bragg gratings for applications such as gain flattening filters especially useful for DWDM EDFA. Moreover, INO manufactures periodically poled lithium niobate (PPLN) for wavelength conversion applications.
Contact Information
Pierre Talbot
Sales&Marketing Consultant
Specialty Fibers and Components
2740 Einstein Street,
Sainte-Foy, Quebec
Canada G1P 4S4
Tel: (418) 657-7009
pierre.talbot@ino.ca
www.ino.ca