Title :
Spectral-Efficient Flexible Optical Multicasting in a Periodically Poled Lithium Niobate Waveguide
Author :
Meloni, Gianluca ; Vercesi, Valeria ; Scaffardi, Mirco ; Bogoni, Antonella ; Poti, Luca
Author_Institution :
Nat. Lab. of Photonic Networks, CNIT, Pisa, Italy
Abstract :
We experimentally demonstrate enhanced spectral efficiency (SE) within flexible multicasting operation in a periodically poled Lithium Niobate (PPLN) waveguide. Replicas of quadrature phase-shift keying (QPSK) and 16 quadrature amplitude modulation combs are generated in the C-band exploiting second-order nonlinear effects in a PPLN waveguide as second harmonic generation and sum frequency generation cascaded with difference frequency generation. This technique allows creating equally spaced replicas of the signal to be multicast, being independent of its modulation format. The bit error rate is measured for the signal replicas after transmission through 80 km of a standard single-mode fiber span. The SE obtained with the multicasting of a 25 Gb/s QPSK on 37.5 GHz spaced channels is about 1.3 b/s/Hz. By introducing the time-frequency packing technique, we demonstrate optical multicasting of a 60 Gb/s QPSK signal with 20 GHz spacing among the replicas by achieving a SE of 2.7 b/s/Hz.
Keywords :
error statistics; lithium compounds; multicast communication; optical communication equipment; optical fibre communication; optical frequency conversion; optical harmonic generation; optical waveguides; quadrature amplitude modulation; quadrature phase shift keying; 16 quadrature amplitude modulation combs; C-band; LiNbO3; PPLN waveguide; bandwidth 37.5 GHz; bit error rate; bit rate 25 Gbit/s; difference frequency generation; distance 80 km; enhanced spectral efficiency; periodically poled lithium niobate waveguide; quadrature phase-shift keying; second harmonic generation; second-order nonlinear effects; spectral-efficient flexible optical multicasting; standard single-mode fiber; sum frequency generation; time-frequency packing; Multicast communication; Nonlinear optics; Optical harmonic generation; Optical noise; Optical wavelength conversion; Phase shift keying; Quadrature amplitude modulation; Multicast communication; nonlinear optical devices; optical fiber communication; optical fiber networks; optical waveguides; optical wavelength conversion; quadrature amplitude modulation;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2015.2480423
