Abstract

All-optical wavelength conversion for 2×11.64 GBaud adaptively-modulated orthogonal frequency division multiplexing (AM-OFDM) signals with QPSK/16QAM formats is experimentally demonstrated in a silicon waveguide. The AM-OFDM signal with partly higher- (and lower-) order formats on lower- (and higher-) frequency subcarriers has better overall conversion performance in receiving optical signal-to-noise ratio and power penalty. In comparison with the OFDM-QPSK signal, at the BER of 3.8×10−3, the bit rate increases 11.64 Gbit/s per channel almost without conversion power penalty increased by replacing the QPSK sequence with the 16QAM sequence on half subcarriers.

© 2017 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

Full Article  |  PDF Article
OSA Recommended Articles
Mode-selective wavelength conversion of OFDM-QPSK signals in a multimode silicon waveguide

Ying Qiu, Xiang Li, Ming Luo, Daigao Chen, Jiamin Wang, Jing Xu, Qi Yang, and Shaohua Yu
Opt. Express 25(4) 4493-4499 (2017)

Wavelength conversion of complex modulation formats in a compact SiGe waveguide

M. A. Ettabib, C. Lacava, Z. Liu, A. Bogris, A. Kapsalis, M. Brun, P. Labeye, S. Nicoletti, D. Syvridis, D. J. Richardson, and P. Petropoulos
Opt. Express 25(4) 3252-3258 (2017)

Tunable optical wavelength conversion of OFDM signal using a periodically-poled lithium niobate waveguide

Xiaoxia Wu, Wei-Ren Peng, Vahid Arbab, Jian Wang, and Alan Willner
Opt. Express 17(11) 9177-9182 (2009)

References

  • View by:
  • |
  • |
  • |

  1. J. Yamawaku, H. Takara, T. Ohara, K. Sato, A. Takada, T. Morioka, O. Tadanaga, H. Miyazawa, and M. Asobe, “Simultaneous 25 GHz-spaced DWDM wavelength conversion of 1.03 Tbit/s (103/spl times/10 Gbit/s) signals in PPLN waveguide,” Electron. Lett. 39, 1144–1145 (2003).
  2. X. Wang, L. Huang, K. Yi, X. Feng, and S. Gao, “All-optical wavelength conversion and five-channel multicasting for 20 Gbit/s QPSK signals in a silicon waveguide,” Opt. Lett. 39(21), 6122–6125 (2014).
    [PubMed]
  3. X. Wang, L. Huang, and S. Gao, “Low-power-penalty wavelength multicasting for 36 Gbit/s 16-QAM coherent optical signals in a silicon waveguide,” Opt. Lett. 39(24), 6907–6910 (2014).
    [PubMed]
  4. P. J. Winzer and R. J. Essiambre, “Advanced modulation formats for high-capacity optical transport networks,” J. Lightwave Technol. 24, 4711–4728 (2006).
  5. M. Pu, H. Hu, H. Ji, M. Galili, L. K. Oxenløwe, P. Jeppesen, J. M. Hvam, and K. Yvind, “One-to-six WDM multicasting of DPSK signals based on dual-pump four-wave mixing in a silicon waveguide,” Opt. Express 19(24), 24448–24453 (2011).
    [PubMed]
  6. H. Ji, M. Galili, H. Hu, M. Pu, L. K. Oxenlowe, K. Yvind, J. M. Hvam, and P. Jeppesen, “1.28-Tb/s demultiplexing of an OTDM DPSK data signal using a silicon waveguide,” IEEE Photonics Technol. Lett. 22, 1762–1764 (2010).
  7. J. A. Bingham, “Multicarrier modulation for data transmission: An idea whose time has come,” IEEE Commun. Mag. 28, 5–14 (1990).
  8. W. Shieh, X. Yi, Y. Ma, and Q. Yang, “Coherent optical OFDM: has its time come?” J. Opt. Netw. 7, 234–255 (2008).
  9. J. Armstrong, “OFDM for optical communications,” J. Lightwave Technol. 27, 189–204 (2009).
  10. Y. Ma, Q. Yang, Y. Tang, S. Chen, and W. Shieh, “1-Tb/s single-channel coherent optical OFDM transmission with orthogonal-band multiplexing and subwavelength bandwidth access,” J. Lightwave Technol. 28, 308–315 (2010).
  11. F. Horlin, J. Fickers, P. Emplit, A. Bourdoux, and J. Louveaux, “Dual-polarization OFDM-OQAM for communications over optical fibers with coherent detection,” Opt. Express 21(5), 6409–6421 (2013).
    [PubMed]
  12. A. J. Lowery, L. B. Du, and J. Armstrong, “Performance of optical OFDM in ultralong-haul WDM lightwave systems,” J. Lightwave Technol. 25, 131–138 (2007).
  13. D. Qian, M. F. Huang, E. Ip, Y. K. Huang, Y. Shao, J. Hu, and T. Wang, “High capacity/spectral efficiency 101.7-Tb/s WDM transmission using PDM-128QAM-OFDM over 165-km SSMF within C-and L-bands,” J. Lightwave Technol. 30, 1540–1548 (2012).
  14. E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).
  15. C. Li, C. Gui, X. Xiao, Q. Yang, S. Yu, and J. Wang, “On-chip all-optical wavelength conversion of multicarrier, multilevel modulation (OFDM m-QAM) signals using a silicon waveguide,” Opt. Lett. 39(15), 4583–4586 (2014).
    [PubMed]
  16. A. Czylwik, “Comparison between adaptive OFDM and single carrier modulation with frequency domain equalization,” IEEE Veh. Technol. Conf.2, 865–869 (1997).
  17. E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).
  18. F. Peng, J. Zhang, and W. E. Ryan, “Adaptive modulation and coding for IEEE 802.11 n,” in IEEE Wirel. Commun. Conf. (2007), 656–661.
  19. J. M. Tang, P. M. Lane, and K. A. Shore, “Transmission performance of adaptively modulated optical OFDM signals in multimode fiber links,” IEEE Photonics Technol. Lett. 18, 205–207 (2006).
  20. E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).
  21. S. Gao, E.-K. Tien, Y. Huang, and S. He, “Experimental demonstration of bandwidth enhancement based on two-pump wavelength conversion in a silicon waveguide,” Opt. Express 18(26), 27885–27890 (2010).
    [PubMed]

2014 (3)

2013 (1)

2012 (2)

D. Qian, M. F. Huang, E. Ip, Y. K. Huang, Y. Shao, J. Hu, and T. Wang, “High capacity/spectral efficiency 101.7-Tb/s WDM transmission using PDM-128QAM-OFDM over 165-km SSMF within C-and L-bands,” J. Lightwave Technol. 30, 1540–1548 (2012).

E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).

2011 (1)

2010 (5)

H. Ji, M. Galili, H. Hu, M. Pu, L. K. Oxenlowe, K. Yvind, J. M. Hvam, and P. Jeppesen, “1.28-Tb/s demultiplexing of an OTDM DPSK data signal using a silicon waveguide,” IEEE Photonics Technol. Lett. 22, 1762–1764 (2010).

Y. Ma, Q. Yang, Y. Tang, S. Chen, and W. Shieh, “1-Tb/s single-channel coherent optical OFDM transmission with orthogonal-band multiplexing and subwavelength bandwidth access,” J. Lightwave Technol. 28, 308–315 (2010).

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

S. Gao, E.-K. Tien, Y. Huang, and S. He, “Experimental demonstration of bandwidth enhancement based on two-pump wavelength conversion in a silicon waveguide,” Opt. Express 18(26), 27885–27890 (2010).
[PubMed]

2009 (1)

2008 (1)

2007 (1)

2006 (2)

J. M. Tang, P. M. Lane, and K. A. Shore, “Transmission performance of adaptively modulated optical OFDM signals in multimode fiber links,” IEEE Photonics Technol. Lett. 18, 205–207 (2006).

P. J. Winzer and R. J. Essiambre, “Advanced modulation formats for high-capacity optical transport networks,” J. Lightwave Technol. 24, 4711–4728 (2006).

2003 (1)

J. Yamawaku, H. Takara, T. Ohara, K. Sato, A. Takada, T. Morioka, O. Tadanaga, H. Miyazawa, and M. Asobe, “Simultaneous 25 GHz-spaced DWDM wavelength conversion of 1.03 Tbit/s (103/spl times/10 Gbit/s) signals in PPLN waveguide,” Electron. Lett. 39, 1144–1145 (2003).

1990 (1)

J. A. Bingham, “Multicarrier modulation for data transmission: An idea whose time has come,” IEEE Commun. Mag. 28, 5–14 (1990).

Alves, C.

E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).

Armstrong, J.

Asobe, M.

J. Yamawaku, H. Takara, T. Ohara, K. Sato, A. Takada, T. Morioka, O. Tadanaga, H. Miyazawa, and M. Asobe, “Simultaneous 25 GHz-spaced DWDM wavelength conversion of 1.03 Tbit/s (103/spl times/10 Gbit/s) signals in PPLN waveguide,” Electron. Lett. 39, 1144–1145 (2003).

Bingham, J. A.

J. A. Bingham, “Multicarrier modulation for data transmission: An idea whose time has come,” IEEE Commun. Mag. 28, 5–14 (1990).

Bourdoux, A.

Chen, S.

Czylwik, A.

A. Czylwik, “Comparison between adaptive OFDM and single carrier modulation with frequency domain equalization,” IEEE Veh. Technol. Conf.2, 865–869 (1997).

Du, L. B.

Emplit, P.

Essiambre, R. J.

Feng, X.

Fickers, J.

Galili, M.

M. Pu, H. Hu, H. Ji, M. Galili, L. K. Oxenløwe, P. Jeppesen, J. M. Hvam, and K. Yvind, “One-to-six WDM multicasting of DPSK signals based on dual-pump four-wave mixing in a silicon waveguide,” Opt. Express 19(24), 24448–24453 (2011).
[PubMed]

H. Ji, M. Galili, H. Hu, M. Pu, L. K. Oxenlowe, K. Yvind, J. M. Hvam, and P. Jeppesen, “1.28-Tb/s demultiplexing of an OTDM DPSK data signal using a silicon waveguide,” IEEE Photonics Technol. Lett. 22, 1762–1764 (2010).

Gao, S.

Giacoumidis, E.

E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

Gosset, C.

E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).

Gui, C.

He, S.

Horlin, F.

Hu, H.

M. Pu, H. Hu, H. Ji, M. Galili, L. K. Oxenløwe, P. Jeppesen, J. M. Hvam, and K. Yvind, “One-to-six WDM multicasting of DPSK signals based on dual-pump four-wave mixing in a silicon waveguide,” Opt. Express 19(24), 24448–24453 (2011).
[PubMed]

H. Ji, M. Galili, H. Hu, M. Pu, L. K. Oxenlowe, K. Yvind, J. M. Hvam, and P. Jeppesen, “1.28-Tb/s demultiplexing of an OTDM DPSK data signal using a silicon waveguide,” IEEE Photonics Technol. Lett. 22, 1762–1764 (2010).

Hu, J.

Huang, L.

Huang, M. F.

Huang, Y.

Huang, Y. K.

Hvam, J. M.

M. Pu, H. Hu, H. Ji, M. Galili, L. K. Oxenløwe, P. Jeppesen, J. M. Hvam, and K. Yvind, “One-to-six WDM multicasting of DPSK signals based on dual-pump four-wave mixing in a silicon waveguide,” Opt. Express 19(24), 24448–24453 (2011).
[PubMed]

H. Ji, M. Galili, H. Hu, M. Pu, L. K. Oxenlowe, K. Yvind, J. M. Hvam, and P. Jeppesen, “1.28-Tb/s demultiplexing of an OTDM DPSK data signal using a silicon waveguide,” IEEE Photonics Technol. Lett. 22, 1762–1764 (2010).

Ip, E.

Jaouën, Y.

E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).

Jeppesen, P.

M. Pu, H. Hu, H. Ji, M. Galili, L. K. Oxenløwe, P. Jeppesen, J. M. Hvam, and K. Yvind, “One-to-six WDM multicasting of DPSK signals based on dual-pump four-wave mixing in a silicon waveguide,” Opt. Express 19(24), 24448–24453 (2011).
[PubMed]

H. Ji, M. Galili, H. Hu, M. Pu, L. K. Oxenlowe, K. Yvind, J. M. Hvam, and P. Jeppesen, “1.28-Tb/s demultiplexing of an OTDM DPSK data signal using a silicon waveguide,” IEEE Photonics Technol. Lett. 22, 1762–1764 (2010).

Ji, H.

M. Pu, H. Hu, H. Ji, M. Galili, L. K. Oxenløwe, P. Jeppesen, J. M. Hvam, and K. Yvind, “One-to-six WDM multicasting of DPSK signals based on dual-pump four-wave mixing in a silicon waveguide,” Opt. Express 19(24), 24448–24453 (2011).
[PubMed]

H. Ji, M. Galili, H. Hu, M. Pu, L. K. Oxenlowe, K. Yvind, J. M. Hvam, and P. Jeppesen, “1.28-Tb/s demultiplexing of an OTDM DPSK data signal using a silicon waveguide,” IEEE Photonics Technol. Lett. 22, 1762–1764 (2010).

Lane, P. M.

J. M. Tang, P. M. Lane, and K. A. Shore, “Transmission performance of adaptively modulated optical OFDM signals in multimode fiber links,” IEEE Photonics Technol. Lett. 18, 205–207 (2006).

Li, C.

Louveaux, J.

Lowery, A. J.

Ma, Y.

Miyazawa, H.

J. Yamawaku, H. Takara, T. Ohara, K. Sato, A. Takada, T. Morioka, O. Tadanaga, H. Miyazawa, and M. Asobe, “Simultaneous 25 GHz-spaced DWDM wavelength conversion of 1.03 Tbit/s (103/spl times/10 Gbit/s) signals in PPLN waveguide,” Electron. Lett. 39, 1144–1145 (2003).

Morioka, T.

J. Yamawaku, H. Takara, T. Ohara, K. Sato, A. Takada, T. Morioka, O. Tadanaga, H. Miyazawa, and M. Asobe, “Simultaneous 25 GHz-spaced DWDM wavelength conversion of 1.03 Tbit/s (103/spl times/10 Gbit/s) signals in PPLN waveguide,” Electron. Lett. 39, 1144–1145 (2003).

Mouchos, C.

E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).

Ohara, T.

J. Yamawaku, H. Takara, T. Ohara, K. Sato, A. Takada, T. Morioka, O. Tadanaga, H. Miyazawa, and M. Asobe, “Simultaneous 25 GHz-spaced DWDM wavelength conversion of 1.03 Tbit/s (103/spl times/10 Gbit/s) signals in PPLN waveguide,” Electron. Lett. 39, 1144–1145 (2003).

Oxenlowe, L. K.

H. Ji, M. Galili, H. Hu, M. Pu, L. K. Oxenlowe, K. Yvind, J. M. Hvam, and P. Jeppesen, “1.28-Tb/s demultiplexing of an OTDM DPSK data signal using a silicon waveguide,” IEEE Photonics Technol. Lett. 22, 1762–1764 (2010).

Oxenløwe, L. K.

Peng, F.

F. Peng, J. Zhang, and W. E. Ryan, “Adaptive modulation and coding for IEEE 802.11 n,” in IEEE Wirel. Commun. Conf. (2007), 656–661.

Pu, M.

M. Pu, H. Hu, H. Ji, M. Galili, L. K. Oxenløwe, P. Jeppesen, J. M. Hvam, and K. Yvind, “One-to-six WDM multicasting of DPSK signals based on dual-pump four-wave mixing in a silicon waveguide,” Opt. Express 19(24), 24448–24453 (2011).
[PubMed]

H. Ji, M. Galili, H. Hu, M. Pu, L. K. Oxenlowe, K. Yvind, J. M. Hvam, and P. Jeppesen, “1.28-Tb/s demultiplexing of an OTDM DPSK data signal using a silicon waveguide,” IEEE Photonics Technol. Lett. 22, 1762–1764 (2010).

Qian, D.

Ryan, W. E.

F. Peng, J. Zhang, and W. E. Ryan, “Adaptive modulation and coding for IEEE 802.11 n,” in IEEE Wirel. Commun. Conf. (2007), 656–661.

Sato, K.

J. Yamawaku, H. Takara, T. Ohara, K. Sato, A. Takada, T. Morioka, O. Tadanaga, H. Miyazawa, and M. Asobe, “Simultaneous 25 GHz-spaced DWDM wavelength conversion of 1.03 Tbit/s (103/spl times/10 Gbit/s) signals in PPLN waveguide,” Electron. Lett. 39, 1144–1145 (2003).

Shao, Y.

Shieh, W.

Shore, K. A.

J. M. Tang, P. M. Lane, and K. A. Shore, “Transmission performance of adaptively modulated optical OFDM signals in multimode fiber links,” IEEE Photonics Technol. Lett. 18, 205–207 (2006).

Tadanaga, O.

J. Yamawaku, H. Takara, T. Ohara, K. Sato, A. Takada, T. Morioka, O. Tadanaga, H. Miyazawa, and M. Asobe, “Simultaneous 25 GHz-spaced DWDM wavelength conversion of 1.03 Tbit/s (103/spl times/10 Gbit/s) signals in PPLN waveguide,” Electron. Lett. 39, 1144–1145 (2003).

Takada, A.

J. Yamawaku, H. Takara, T. Ohara, K. Sato, A. Takada, T. Morioka, O. Tadanaga, H. Miyazawa, and M. Asobe, “Simultaneous 25 GHz-spaced DWDM wavelength conversion of 1.03 Tbit/s (103/spl times/10 Gbit/s) signals in PPLN waveguide,” Electron. Lett. 39, 1144–1145 (2003).

Takara, H.

J. Yamawaku, H. Takara, T. Ohara, K. Sato, A. Takada, T. Morioka, O. Tadanaga, H. Miyazawa, and M. Asobe, “Simultaneous 25 GHz-spaced DWDM wavelength conversion of 1.03 Tbit/s (103/spl times/10 Gbit/s) signals in PPLN waveguide,” Electron. Lett. 39, 1144–1145 (2003).

Tang, J. M.

E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

J. M. Tang, P. M. Lane, and K. A. Shore, “Transmission performance of adaptively modulated optical OFDM signals in multimode fiber links,” IEEE Photonics Technol. Lett. 18, 205–207 (2006).

Tang, Y.

Tien, E.-K.

Tomkos, I.

E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).

Tsokanos, A.

E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

Wang, J.

Wang, T.

Wang, X.

Wei, J. L.

E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

Winzer, P. J.

Xiao, X.

Yamawaku, J.

J. Yamawaku, H. Takara, T. Ohara, K. Sato, A. Takada, T. Morioka, O. Tadanaga, H. Miyazawa, and M. Asobe, “Simultaneous 25 GHz-spaced DWDM wavelength conversion of 1.03 Tbit/s (103/spl times/10 Gbit/s) signals in PPLN waveguide,” Electron. Lett. 39, 1144–1145 (2003).

Yang, Q.

Yang, X. L.

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

Yi, K.

Yi, X.

Yu, S.

Yvind, K.

M. Pu, H. Hu, H. Ji, M. Galili, L. K. Oxenløwe, P. Jeppesen, J. M. Hvam, and K. Yvind, “One-to-six WDM multicasting of DPSK signals based on dual-pump four-wave mixing in a silicon waveguide,” Opt. Express 19(24), 24448–24453 (2011).
[PubMed]

H. Ji, M. Galili, H. Hu, M. Pu, L. K. Oxenlowe, K. Yvind, J. M. Hvam, and P. Jeppesen, “1.28-Tb/s demultiplexing of an OTDM DPSK data signal using a silicon waveguide,” IEEE Photonics Technol. Lett. 22, 1762–1764 (2010).

Zardas, G.

E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).

Zhang, J.

F. Peng, J. Zhang, and W. E. Ryan, “Adaptive modulation and coding for IEEE 802.11 n,” in IEEE Wirel. Commun. Conf. (2007), 656–661.

Electron. Lett. (1)

J. Yamawaku, H. Takara, T. Ohara, K. Sato, A. Takada, T. Morioka, O. Tadanaga, H. Miyazawa, and M. Asobe, “Simultaneous 25 GHz-spaced DWDM wavelength conversion of 1.03 Tbit/s (103/spl times/10 Gbit/s) signals in PPLN waveguide,” Electron. Lett. 39, 1144–1145 (2003).

IEEE Commun. Mag. (1)

J. A. Bingham, “Multicarrier modulation for data transmission: An idea whose time has come,” IEEE Commun. Mag. 28, 5–14 (1990).

IEEE J. Opt. Commun. Netw. (1)

E. Giacoumidis, A. Tsokanos, C. Mouchos, G. Zardas, C. Alves, J. L. Wei, J. M. Tang, C. Gosset, Y. Jaouën, and I. Tomkos, “Extensive comparison of optical fast OFDM and conventional OFDM for local and access networks,” IEEE J. Opt. Commun. Netw. 4, 724–733 (2012).

IEEE Photonics J. (2)

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

E. Giacoumidis, J. L. Wei, X. L. Yang, A. Tsokanos, and J. M. Tang, “Adaptive-modulation-enabled WDM impairment reduction in multichannel optical OFDM transmission systems for next-generation PONs,” IEEE Photonics J. 2, 130–140 (2010).

IEEE Photonics Technol. Lett. (2)

J. M. Tang, P. M. Lane, and K. A. Shore, “Transmission performance of adaptively modulated optical OFDM signals in multimode fiber links,” IEEE Photonics Technol. Lett. 18, 205–207 (2006).

H. Ji, M. Galili, H. Hu, M. Pu, L. K. Oxenlowe, K. Yvind, J. M. Hvam, and P. Jeppesen, “1.28-Tb/s demultiplexing of an OTDM DPSK data signal using a silicon waveguide,” IEEE Photonics Technol. Lett. 22, 1762–1764 (2010).

J. Lightwave Technol. (5)

J. Opt. Netw. (1)

Opt. Express (3)

Opt. Lett. (3)

Other (2)

A. Czylwik, “Comparison between adaptive OFDM and single carrier modulation with frequency domain equalization,” IEEE Veh. Technol. Conf.2, 865–869 (1997).

F. Peng, J. Zhang, and W. E. Ryan, “Adaptive modulation and coding for IEEE 802.11 n,” in IEEE Wirel. Commun. Conf. (2007), 656–661.

Cited By

OSA participates in Crossref's Cited-By Linking service. Citing articles from OSA journals and other participating publishers are listed here.

Alert me when this article is cited.


Figures (5)

Fig. 1
Fig. 1 (a) Principle of the wavelength conversion for WDM-compatible OFDM signals. (b) Schematic diagrams for four modulated schemes across all 64 subcarriers.
Fig. 2
Fig. 2 (a) Experimental setup of the wavelength conversion for the two-channel WDM AM-OFDM signals in a silicon waveguide; (b) Measured optical spectrum after the silicon waveguide.
Fig. 3
Fig. 3 Constellation diagrams for the AM-OFDM signals and the converted idlers with four different modulated schemes. (a1)-(d1) OFDM-QPSK; (a2)-(d2) OFDM-3/4QPSK+1/4QAM; (a3)-(d3) OFDM-1/2QPSK+1/2QAM; (a4)-(d4) OFDM-QAM.
Fig. 4
Fig. 4 Measured BER results for 64 subcarriers with four different modulation cases at the OSNR of ~21 dB.
Fig. 5
Fig. 5 Measured BER results of the WDM signals and converted idlers for (a) OFDM-QPSK, (b) OFDM-3/4QPSK + 1/4QAM, (c) OFDM-1/2QPSK + 1/2QAM, and (d) OFDM-QAM signals.

Tables (1)

Tables Icon

Table 1 Calculated OSNRs and power penalties at the BER of 3.8 × 10−3.

Metrics