Peer-Reviewed Journal Details
Mandatory Fields
Weerasuriya, R.; Sygletos, S.; Ibrahim, S.K.; Gunning, F.C.G.; Manning, R.J.; Phelan, R.; O'Carroll, J.; Kelly, B.; O'Gorman, J.; Ellis, A.D.
IEEE Photonics Technology Letters
Comparison of Frequency Symmetric Signal Generation From a BPSK Input Using Fiber and Semiconductor-Based Nonlinear Elements
WOS: 5 ()
Optional Fields
Binary phase shift keying Optical attenuators Optical fibers Optical noise Optical pumping Semiconductor optical amplifiers Signal to noise ratio multiwave mixing optical communication equipment optical fibre communication phase shift keying semiconductor optical amplifiers BPSK input bit rate 42.7 Gbit/s carrier generation carrier recovery four-wave mixing frequency symmetric signal generation highly nonlinear optical fiber nonlinear media nonreturn-to-zero binary phase-shift-keyed input phase-sensitive amplifier semiconductor optical amplifier semiconductor-based nonlinear elements Four-wave mixing (FWM) injection-locked lasers optical communications
We compare two nonlinear media for simultaneous carrier recovery and generation of frequency symmetric signals from a 42.7Gbit/s nonreturn-to-zero binary phase shift keyed (NRZ-BPSK) input by exploiting four-wave mixing (FWM) in a semiconductor optical amplifier (SOA) and a highly nonlinear fibre (HNLF) for use in a phase sensitive amplifier.
Grant Details