%0 Journal Article %1 SLO06 %A Slovak, J. %A Bornholdt, C. %A Kreissl, J. %A Bauer, S. %A Biletzke, M. %A Schlak, M. %A Sartorius, B. %D 2006 %J IEEE Photon. Technol. Lett. %K 4 43.02 8 C-band, GHz, Gbit/s, NRZ-coded PRBS all-optical amplifier, amplifiers, binary bit circuit, clock clock, communication communication, compact data demultiplexer demultiplexing division dynamic equipment, fibre filter, filters, jitter, lasers, multiplexing39.81 nonreturn-to-zero optical periodical preprocessing pseudo-return-to pseudorandom range, rate recovery recovery, root-mean-square scheme scheme, self-pulsating semiconductor sequence, sequences, signal, signals, sinusoidal stable streams, synchronisation, timing to transparency, transparent wavelength wavelength-division-multiplexing, zero %N 7 %P 844--846 %R 10.1109/lpt.2006.871834 %T Bit rate and wavelength transparent all-optical clock recovery scheme for NRZ-coded PRBS signals %V 18 %X All-optical clock recovery from 40-Gb/s nonreturn-to-zero (NRZ) pseudorandom binary sequence data streams based on self-pulsating lasers is presented. A compact preprocessing circuit is utilized to convert an NRZ signal to a pseudoreturn-to-zero sequence before injecting into the optical clock. It comprises a semiconductor optical amplifier followed by a periodical wavelength-division-multiplexing demultiplexer filter. A stable sinusoidal clock signal with a root-mean-square jitter below 700 fs is detected at the output of the self-pulsating laser within data dynamic range of more than 8 dB. The performance of the all-optical clock recovery scheme is investigated by varying the bit rates between 39.81 and 43.02 Gb/s as well as for various wavelengths in the C-band.

@article{SLO06, abstract = {All-optical clock recovery from 40-Gb/s nonreturn-to-zero (NRZ) pseudorandom binary sequence data streams based on self-pulsating lasers is presented. A compact preprocessing circuit is utilized to convert an NRZ signal to a pseudoreturn-to-zero sequence before injecting into the optical clock. It comprises a semiconductor optical amplifier followed by a periodical wavelength-division-multiplexing demultiplexer filter. A stable sinusoidal clock signal with a root-mean-square jitter below 700 fs is detected at the output of the self-pulsating laser within data dynamic range of more than 8 dB. The performance of the all-optical clock recovery scheme is investigated by varying the bit rates between 39.81 and 43.02 Gb/s as well as for various wavelengths in the C-band.}, added-at = {2009-03-03T17:19:04.000+0100}, author = {Slovak, J. and Bornholdt, C. and Kreissl, J. and Bauer, S. and Biletzke, M. and Schlak, M. and Sartorius, B.}, biburl = {https://www.bibsonomy.org/bibtex/296e13303db7c0eaf24f312e2a06b367b/bronckobuster}, doi = {10.1109/lpt.2006.871834}, interhash = {309385ff7254d5fbba968f0d60361fd1}, intrahash = {96e13303db7c0eaf24f312e2a06b367b}, issn = {1041-1135}, journal = {IEEE Photon. Technol. Lett.}, keywords = {4 43.02 8 C-band, GHz, Gbit/s, NRZ-coded PRBS all-optical amplifier, amplifiers, binary bit circuit, clock clock, communication communication, compact data demultiplexer demultiplexing division dynamic equipment, fibre filter, filters, jitter, lasers, multiplexing39.81 nonreturn-to-zero optical periodical preprocessing pseudo-return-to pseudorandom range, rate recovery recovery, root-mean-square scheme scheme, self-pulsating semiconductor sequence, sequences, signal, signals, sinusoidal stable streams, synchronisation, timing to transparency, transparent wavelength wavelength-division-multiplexing, zero}, month = {April}, number = 7, pages = {844--846}, timestamp = {2009-03-03T17:19:58.000+0100}, title = {Bit rate and wavelength transparent all-optical clock recovery scheme for NRZ-coded PRBS signals}, volume = 18, year = 2006 }