Abstract

We present a single-channel 5.12 Tbit/s polarization-multiplexed DQPSK transmission over 300 km at 1.28 Tbaud using a non-coherent Nyquist pulse. An ultrafast OTDM demultiplexer for 1.28 Tbaud Nyquist pulses was newly developed with a mode-locked fiber laser operating in the L band as a control pulse source. Thanks to the high PMD tolerance of Nyquist pulses, a 300 km transmission was successfully demonstrated for the first time at such a high symbol rate.

© 2016 Optical Society of America

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  1. G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.
  2. M. Nakazawa, T. Yamamoto, and K. R. Tamura, “1.28 Tbit/s-70 km OTDM transmission using third- and fourth-order simultaneous dispersion compensation with a phase modulator,” Electron. Lett. 36(24), 2027–2029 (2000).
    [Crossref]
  3. H. C. Mulvad, M. Galili, L. K. Oxenløwe, H. Hu, A. T. Clausen, J. B. Jensen, C. Peucheret, and P. Jeppesen, “Demonstration of 5.1 Tbit/s data capacity on a single-wavelength channel,” Opt. Express 18(2), 1438–1443 (2010).
    [Crossref] [PubMed]
  4. T. Richter, E. Palushani, C. Schmidt-Langhorst, M. Nölle, R. Ludwig, and C. Schubert, “Single wavelength channel 10.2 Tb/s TDM-data capacity using 16-QAM and coherent detection,” in Proceedings of OFC2011, PDPA9.
  5. T. Hirooka, K. Harako, P. Guan, and M. Nakazawa, “Second-order PMD-induced crosstalk between polarization-multiplexed signals and its impact on ultrashort optical pulse transmission,” J. Lightwave Technol. 31(5), 809–814 (2013).
    [Crossref]
  6. P. Guan, T. Hirano, K. Harako, Y. Tomiyama, T. Hirooka, and M. Nakazawa, “2.56 Tbit/s/ch polarization-multiplexed DQPSK transmission over 300 km using time-domain optical Fourier transformation,” Opt. Express 19(26), B567–B573 (2011).
    [Crossref] [PubMed]
  7. M. Nakazawa, T. Hirooka, P. Ruan, and P. Guan, “Ultrahigh-speed “orthogonal” TDM transmission with an optical Nyquist pulse train,” Opt. Express 20(2), 1129–1140 (2012).
    [Crossref] [PubMed]
  8. D. Suzuki, K. Harako, T. Hirooka, and M. Nakazawa, “Single-channel 5.12 Tbit/s (1.28 Tbaud) DQPSK transmission over 300 km using non-coherent Nyquist pulses,” in Proceedings of ECOC 2016, W.4.P1.SC5.49.
  9. H. Hu, D. Kong, E. Palushani, J. D. Andersen, A. Rasmussen, B. M. Sørensen, M. Galili, H. C. H. Mulvad, K. J. Larsen, S. Forchhammer, P. Jeppesen, and L. K. Oxenløwe, “1.28 Tbaud Nyquist signal transmission using time-domain optical Fourier transformation based receiver,” in Proceedings of CLEO 2013, CTh5D.5.
    [Crossref]
  10. K. Harako, D. Suzuki, T. Hirooka, and M. Nakazawa, “Roll-off factor dependence of Nyquist pulse transmission,” in Proceedings of OECC2016, 21986.
    [Crossref]
  11. K. Harako, D. Seya, T. Hirooka, and M. Nakazawa, “640 Gbaud (1.28 Tbit/s/ch) optical Nyquist pulse transmission over 525 km with substantial PMD tolerance,” Opt. Express 21(18), 21062–21075 (2013).
    [Crossref] [PubMed]
  12. C. Boerner, V. Marembert, S. Ferber, C. Schubert, C. Schmidt-Langhorst, R. Ludwig, and H. G. Weber, “320 Gbit/s clock recovery with electro-optical PLL using a bidirectionally operated electroabsorption modulator as phase comparator,” in Proceedings of OFC2005, OTuO3.
    [Crossref]
  13. M. Nakazawa and E. Yoshida, “A 40 GHz, 850 fs regeneratively FM mode-locked polarization-maintaining erbium fiber ring laser,” IEEE Photon. Technol. Lett. 12(12), 1613–1615 (2000).
    [Crossref]
  14. K. Harako, D. Seya, D. Suzuki, T. Hirooka, and M. Nakazawa, “2.56 Tbit/s/ch (640 Gbaud) polarization-multiplexed DQPSK non-coherent Nyquist pulse transmission over 525 km,” Opt. Express 23(24), 30801–30806 (2015).
    [Crossref] [PubMed]

2015 (1)

2013 (2)

2012 (1)

2011 (1)

2010 (1)

2000 (2)

M. Nakazawa, T. Yamamoto, and K. R. Tamura, “1.28 Tbit/s-70 km OTDM transmission using third- and fourth-order simultaneous dispersion compensation with a phase modulator,” Electron. Lett. 36(24), 2027–2029 (2000).
[Crossref]

M. Nakazawa and E. Yoshida, “A 40 GHz, 850 fs regeneratively FM mode-locked polarization-maintaining erbium fiber ring laser,” IEEE Photon. Technol. Lett. 12(12), 1613–1615 (2000).
[Crossref]

Adamiecki, A.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Boerner, C.

C. Boerner, V. Marembert, S. Ferber, C. Schubert, C. Schmidt-Langhorst, R. Ludwig, and H. G. Weber, “320 Gbit/s clock recovery with electro-optical PLL using a bidirectionally operated electroabsorption modulator as phase comparator,” in Proceedings of OFC2005, OTuO3.
[Crossref]

Burrows, E. C.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Cho, J.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Clausen, A. T.

Dupuy, J.-Y.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Duval, B.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Ferber, S.

C. Boerner, V. Marembert, S. Ferber, C. Schubert, C. Schmidt-Langhorst, R. Ludwig, and H. G. Weber, “320 Gbit/s clock recovery with electro-optical PLL using a bidirectionally operated electroabsorption modulator as phase comparator,” in Proceedings of OFC2005, OTuO3.
[Crossref]

Fontaine, N.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Galili, M.

Guan, B.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Guan, P.

Harako, K.

Hirano, T.

Hirooka, T.

Hu, H.

Jensen, J. B.

Jeppesen, P.

Jorge, F.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Kim, K.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Konczykowska, A.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Ludwig, R.

C. Boerner, V. Marembert, S. Ferber, C. Schubert, C. Schmidt-Langhorst, R. Ludwig, and H. G. Weber, “320 Gbit/s clock recovery with electro-optical PLL using a bidirectionally operated electroabsorption modulator as phase comparator,” in Proceedings of OFC2005, OTuO3.
[Crossref]

T. Richter, E. Palushani, C. Schmidt-Langhorst, M. Nölle, R. Ludwig, and C. Schubert, “Single wavelength channel 10.2 Tb/s TDM-data capacity using 16-QAM and coherent detection,” in Proceedings of OFC2011, PDPA9.

Marembert, V.

C. Boerner, V. Marembert, S. Ferber, C. Schubert, C. Schmidt-Langhorst, R. Ludwig, and H. G. Weber, “320 Gbit/s clock recovery with electro-optical PLL using a bidirectionally operated electroabsorption modulator as phase comparator,” in Proceedings of OFC2005, OTuO3.
[Crossref]

Mulvad, H. C.

Nakazawa, M.

K. Harako, D. Seya, D. Suzuki, T. Hirooka, and M. Nakazawa, “2.56 Tbit/s/ch (640 Gbaud) polarization-multiplexed DQPSK non-coherent Nyquist pulse transmission over 525 km,” Opt. Express 23(24), 30801–30806 (2015).
[Crossref] [PubMed]

K. Harako, D. Seya, T. Hirooka, and M. Nakazawa, “640 Gbaud (1.28 Tbit/s/ch) optical Nyquist pulse transmission over 525 km with substantial PMD tolerance,” Opt. Express 21(18), 21062–21075 (2013).
[Crossref] [PubMed]

T. Hirooka, K. Harako, P. Guan, and M. Nakazawa, “Second-order PMD-induced crosstalk between polarization-multiplexed signals and its impact on ultrashort optical pulse transmission,” J. Lightwave Technol. 31(5), 809–814 (2013).
[Crossref]

M. Nakazawa, T. Hirooka, P. Ruan, and P. Guan, “Ultrahigh-speed “orthogonal” TDM transmission with an optical Nyquist pulse train,” Opt. Express 20(2), 1129–1140 (2012).
[Crossref] [PubMed]

P. Guan, T. Hirano, K. Harako, Y. Tomiyama, T. Hirooka, and M. Nakazawa, “2.56 Tbit/s/ch polarization-multiplexed DQPSK transmission over 300 km using time-domain optical Fourier transformation,” Opt. Express 19(26), B567–B573 (2011).
[Crossref] [PubMed]

M. Nakazawa and E. Yoshida, “A 40 GHz, 850 fs regeneratively FM mode-locked polarization-maintaining erbium fiber ring laser,” IEEE Photon. Technol. Lett. 12(12), 1613–1615 (2000).
[Crossref]

M. Nakazawa, T. Yamamoto, and K. R. Tamura, “1.28 Tbit/s-70 km OTDM transmission using third- and fourth-order simultaneous dispersion compensation with a phase modulator,” Electron. Lett. 36(24), 2027–2029 (2000).
[Crossref]

K. Harako, D. Suzuki, T. Hirooka, and M. Nakazawa, “Roll-off factor dependence of Nyquist pulse transmission,” in Proceedings of OECC2016, 21986.
[Crossref]

Nölle, M.

T. Richter, E. Palushani, C. Schmidt-Langhorst, M. Nölle, R. Ludwig, and C. Schubert, “Single wavelength channel 10.2 Tb/s TDM-data capacity using 16-QAM and coherent detection,” in Proceedings of OFC2011, PDPA9.

Oxenløwe, L. K.

Palushani, E.

T. Richter, E. Palushani, C. Schmidt-Langhorst, M. Nölle, R. Ludwig, and C. Schubert, “Single wavelength channel 10.2 Tb/s TDM-data capacity using 16-QAM and coherent detection,” in Proceedings of OFC2011, PDPA9.

Peucheret, C.

Pilori, D.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Randel, S.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Raybon, G.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Richter, T.

T. Richter, E. Palushani, C. Schmidt-Langhorst, M. Nölle, R. Ludwig, and C. Schubert, “Single wavelength channel 10.2 Tb/s TDM-data capacity using 16-QAM and coherent detection,” in Proceedings of OFC2011, PDPA9.

Riet, M.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Ruan, P.

Schmidt-Langhorst, C.

C. Boerner, V. Marembert, S. Ferber, C. Schubert, C. Schmidt-Langhorst, R. Ludwig, and H. G. Weber, “320 Gbit/s clock recovery with electro-optical PLL using a bidirectionally operated electroabsorption modulator as phase comparator,” in Proceedings of OFC2005, OTuO3.
[Crossref]

T. Richter, E. Palushani, C. Schmidt-Langhorst, M. Nölle, R. Ludwig, and C. Schubert, “Single wavelength channel 10.2 Tb/s TDM-data capacity using 16-QAM and coherent detection,” in Proceedings of OFC2011, PDPA9.

Schubert, C.

T. Richter, E. Palushani, C. Schmidt-Langhorst, M. Nölle, R. Ludwig, and C. Schubert, “Single wavelength channel 10.2 Tb/s TDM-data capacity using 16-QAM and coherent detection,” in Proceedings of OFC2011, PDPA9.

C. Boerner, V. Marembert, S. Ferber, C. Schubert, C. Schmidt-Langhorst, R. Ludwig, and H. G. Weber, “320 Gbit/s clock recovery with electro-optical PLL using a bidirectionally operated electroabsorption modulator as phase comparator,” in Proceedings of OFC2005, OTuO3.
[Crossref]

Seya, D.

Suzuki, D.

Tamura, K. R.

M. Nakazawa, T. Yamamoto, and K. R. Tamura, “1.28 Tbit/s-70 km OTDM transmission using third- and fourth-order simultaneous dispersion compensation with a phase modulator,” Electron. Lett. 36(24), 2027–2029 (2000).
[Crossref]

Tomiyama, Y.

Weber, H. G.

C. Boerner, V. Marembert, S. Ferber, C. Schubert, C. Schmidt-Langhorst, R. Ludwig, and H. G. Weber, “320 Gbit/s clock recovery with electro-optical PLL using a bidirectionally operated electroabsorption modulator as phase comparator,” in Proceedings of OFC2005, OTuO3.
[Crossref]

Winzer, P.

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

Yamamoto, T.

M. Nakazawa, T. Yamamoto, and K. R. Tamura, “1.28 Tbit/s-70 km OTDM transmission using third- and fourth-order simultaneous dispersion compensation with a phase modulator,” Electron. Lett. 36(24), 2027–2029 (2000).
[Crossref]

Yoshida, E.

M. Nakazawa and E. Yoshida, “A 40 GHz, 850 fs regeneratively FM mode-locked polarization-maintaining erbium fiber ring laser,” IEEE Photon. Technol. Lett. 12(12), 1613–1615 (2000).
[Crossref]

Electron. Lett. (1)

M. Nakazawa, T. Yamamoto, and K. R. Tamura, “1.28 Tbit/s-70 km OTDM transmission using third- and fourth-order simultaneous dispersion compensation with a phase modulator,” Electron. Lett. 36(24), 2027–2029 (2000).
[Crossref]

IEEE Photon. Technol. Lett. (1)

M. Nakazawa and E. Yoshida, “A 40 GHz, 850 fs regeneratively FM mode-locked polarization-maintaining erbium fiber ring laser,” IEEE Photon. Technol. Lett. 12(12), 1613–1615 (2000).
[Crossref]

J. Lightwave Technol. (1)

Opt. Express (5)

Other (6)

T. Richter, E. Palushani, C. Schmidt-Langhorst, M. Nölle, R. Ludwig, and C. Schubert, “Single wavelength channel 10.2 Tb/s TDM-data capacity using 16-QAM and coherent detection,” in Proceedings of OFC2011, PDPA9.

D. Suzuki, K. Harako, T. Hirooka, and M. Nakazawa, “Single-channel 5.12 Tbit/s (1.28 Tbaud) DQPSK transmission over 300 km using non-coherent Nyquist pulses,” in Proceedings of ECOC 2016, W.4.P1.SC5.49.

H. Hu, D. Kong, E. Palushani, J. D. Andersen, A. Rasmussen, B. M. Sørensen, M. Galili, H. C. H. Mulvad, K. J. Larsen, S. Forchhammer, P. Jeppesen, and L. K. Oxenløwe, “1.28 Tbaud Nyquist signal transmission using time-domain optical Fourier transformation based receiver,” in Proceedings of CLEO 2013, CTh5D.5.
[Crossref]

K. Harako, D. Suzuki, T. Hirooka, and M. Nakazawa, “Roll-off factor dependence of Nyquist pulse transmission,” in Proceedings of OECC2016, 21986.
[Crossref]

C. Boerner, V. Marembert, S. Ferber, C. Schubert, C. Schmidt-Langhorst, R. Ludwig, and H. G. Weber, “320 Gbit/s clock recovery with electro-optical PLL using a bidirectionally operated electroabsorption modulator as phase comparator,” in Proceedings of OFC2005, OTuO3.
[Crossref]

G. Raybon, J. Cho, A. Adamiecki, P. Winzer, A. Konczykowska, F. Jorge, J.-Y. Dupuy, M. Riet, B. Duval, K. Kim, S. Randel, D. Pilori, B. Guan, N. Fontaine, and E. C. Burrows, “Single carrier high symbol rate transmitter for data rates up to 1.0 Tb/s,” in Proceedings of OFC2016, Th3A.2.

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Figures (11)

Fig. 1
Fig. 1 Experimental setup for 5.12 Tbit/s/ch DQPSK Nyquist pulse transmission over 300 km.
Fig. 2
Fig. 2 Generated Nyquist pulse waveform (a) and spectrum (b) for 1.28 Tbaud transmission.
Fig. 3
Fig. 3 Configuration of 40 GHz MLFL for OTDM demultiplexing.
Fig. 4
Fig. 4 Output pulse autocorrelation waveform (a) and spectrum (b) of control pulse source.
Fig. 5
Fig. 5 HNLF characteristics of NOLM: (a) group delay and (b) dispersion characteristics.
Fig. 6
Fig. 6 (a) Switching gate waveform for 1.28 T→ 40 Gbaud demultiplexing. (b) Relationship between back-to-back BER and received power with different switching gate widths (400, 490 and 590 fs).
Fig. 7
Fig. 7 Spectra of signal and control pulse at output of NOLM.
Fig. 8
Fig. 8 Launched power dependence of BER in 1.28 Tbaud single-polarization Nyquist pulse transmission over 300 km.
Fig. 9
Fig. 9 Dependence of inter-polarization crosstalk on transmission distance for RZ and Nyquist pulses.
Fig. 10
Fig. 10 BER characteristics of demultiplexed 40 Gbaud DQPSK signal in 5.12 Tbit/s/ch-300 km polarization-multiplexed DQPSK transmission using non-coherent Nyquist pulse. (a) BER vs. received power and (b) BER vs. OSNR.
Fig. 11
Fig. 11 Demultiplexed waveforms of 1.28 Tbaud Nyquist OTDM signals after 300 km transmission with (a) single-polarization and (b) polarization-multiplexing.

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