Title :
Highly reliable and high yield 1300 nm InGaAlAs directly modulated ridge Fabry-Perot lasers, operating at 10 Gb/s, up to 110°C, with constant current swing
Author :
Paoletti, Roberto ; Agresti, M. ; Bertone, D. ; Bianco, L. ; Bruschi, C. ; Buccieri, A. ; Campi, R. ; Dorigoni, C. ; Gotta, P. ; Liotti, M. ; Magnetti, G. ; Montangero, P. ; Morello, G. ; Rigo, C. ; Riva, E. ; Soderstrom, D. ; Stano, S. ; Valenti, P. ; Va
Author_Institution :
TTC-Agilent Technol., Torino, Italy
Abstract :
Transceivers for 300 m multimode links, based on a serial 10 Gb laser source and incorporating receiver based electronic dispersion compensation (EDC) are creating the first high volume application for 10 Gb FP (Fabry Perot). A highly reliable and high yield uncooled ridge FP laser is presented. The device shows excellent power characteristics in the 25-150°C temperature range with very high T0 (95 K in the temperature range 0-85°C and still 78 K at 150°C). Outstanding dynamic performances are also shown: 6 dB of extinction ratio can be achieved up to 110°C, by using a constant current swing of 50 mA.
Keywords :
Fabry-Perot resonators; III-V semiconductors; aluminium compounds; compensation; gallium arsenide; indium compounds; laser cavity resonators; optical communication equipment; optical dispersion; optical fibre communication; semiconductor device measurement; semiconductor device reliability; semiconductor lasers; transceivers; 0 to 85 C; 10 Gbit/s; 110 C; 1300 nm; 25 to 150 C; 300 m; InGaAlAs; InGaAlAs directly modulated ridge Fabry-Perot lasers; constant current swing; device power characteristics; device yield; dynamic performances; extinction ratio; multimode links; receiver based electronic dispersion compensation; reliability; serial laser source; temperature range; transceivers; uncooled ridge FP laser; Bit rate; Consumer electronics; Costs; Extinction ratio; Fabry-Perot; Power lasers; Quantum well devices; Semiconductor lasers; Temperature distribution; Transceivers;
Conference_Titel :
Optical Fiber Communication Conference, 2005. Technical Digest. OFC/NFOEC
Print_ISBN :
1-55752-783-0
DOI :
10.1109/OFC.2005.193193
