Application of a 80 GHz all-optical clock in a 160 km transmission experiment

Author

Bornholdt, C. ; Slovak, J. ; Möhrle, M. ; Sartorius, B.

Author_Institution

Heinrich-Hertz-Inst. fur Nachrichtentech. Berlin GmbH, Germany

fYear

2002

fDate

17-22 Mar 2002

Firstpage

87

Lastpage

89

Abstract

A novel 80 GHz all-optical clock recovery based on the self-pulsating "PhaseCOMB" (phase controlled optical mode beating) laser has been applied and tested for the first time in a system experiment, a transmission over 160 km. The jitter of the 80 Gb/s data signal generated on the transmitter side (238 fs) and of the 80 GHz clock recovered at the receiver side (282 fs) have been measured and compared. Both show an excellent low timing jitter of less then 300 fs, matching demands even for operation at higher data rates, e.g. 160 Gb/s. The good system performance of the novel 80 GHz optical clock based on the PhaseCOMB thus has been verified. We expect the PhaseCOMB will become a key component for high speed all-optical signal processing.

Keywords

distributed feedback lasers; optical information processing; optical receivers; optical transmitters; semiconductor lasers; synchronisation; timing jitter; 160 Gbit/s; 160 km; 238 fs; 282 fs; 80 GHz; 80 Gbit/s; GHz all-optical clock recovery; GHz optical clock; good system performance; high speed all-optical signal processing; higher data rates; jitter; low timing jitter; phase controlled optical mode beating laser; receiver side; self-pulsating laser; transmitter side; Automatic testing; Clocks; Control systems; High speed optical techniques; Laser modes; Optical control; Optical receivers; Optical signal processing; Optical transmitters; System testing;

fLanguage

English

Publisher

ieee

Conference_Titel

Optical Fiber Communication Conference and Exhibit, 2002. OFC 2002

Print_ISBN

1-55752-701-6

Type

conf

DOI

10.1109/OFC.2002.1036223

Filename

1036223