High reliability 980-nm pump lasers for Er amplifiers

Author

Harder, Christoph S. ; Brovelli, Luigi ; Meier, Heinz P. ; Oosenbrug, Albert

Author_Institution

IBM Laser Enterprise, Zurich Res. Lab., Rueschilikon, Switzerland

fYear

1997

Firstpage

350

Abstract

The erbium-doped fiber amplifier (EDFA) has a profound impact on fiber optic transmission systems in telecommunications as well as cable television. The EDFA can employ pump laser diodes (pumps) at 980 nm or 1480 nm. Due to their fundamental performance advantages in noise figure and useful optical bandwidth 980 nm pumps have been preferred in all applications with the exception of submarine systems that have overriding reliability requirements. The 980-nm laser diode has established itself in countless applications as the prime pump for terrestrial EDFAs (digital and analog) with moderate saturated gain in the last few years. We believe that the tremendous learning will lead this pump chip to play an eminent role in the next few years in submarine applications, high saturated gain EDFAs and cladding pumped fiber lasers

Keywords

cable television; infrared sources; laser reliability; laser transitions; optical cables; optical pumping; semiconductor device reliability; semiconductor lasers; submarine cables; telecommunication network reliability; 1480 nm; 980 nm; 980-nm laser diode; EDFA; cable television; cladding pumped fiber lasers; erbium-doped fiber amplifier; fiber optic transmission systems; fundamental performance advantages; high reliability 980-nm pump lasers; high saturated gain EDFAs; moderate saturated gain; noise figure; pump chip; pump laser diodes; reliability requirements; submarine systems; telecommunications; Diode lasers; Erbium; Erbium-doped fiber amplifier; Erbium-doped fiber lasers; Laser excitation; Laser noise; Optical amplifiers; Optical fibers; Pump lasers; Underwater vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

Optical Fiber Communication. OFC 97., Conference on

Conference_Location

Dallas, TX

Print_ISBN

1-55752-480-7

Type

conf

DOI

10.1109/OFC.1997.719955

Filename

719955