Abstract

Towards 100G beyond large-capacity optical access networks, wavelength division multiplexing (WDM) techniques incorporating with space division multiplexing (SDM) and affordable spectrally efficient advanced modulation formats are indispensable. In this paper, we proposed and experimentally demonstrated a cost-efficient multicore fiber (MCF) based hybrid WDM-SDM optical access network with self-homodyne coherent detection (SHCD) based downstream (DS) and direct detection optical filter bank multi carrier (DDO-FBMC) based upstream (US). In the DS experiments, the inner core of the 7-core fiber is used as a dedicated channel to deliver the local oscillator (LO) lights while the other 6 outer cores are used to transmit 4 channels of wavelength multiplexed 200-Gb/s PDM-16QAM-OFDM signals. For US transmission, 4 wavelengths with channel spacing of 100 GHz are intensity modulated with 30 Gb/s 32-QAM-FBMC and directly detected by a ~7 GHz bandwidth receiver after transmission along one of the outer core. The results show that a 4 × 6 × 200-Gb/s DS transmission can be realized over 37 km 7-core fiber without carrier frequency offset (CFO) and phase noise (PN) compensation even using 10 MHz linewidth DFB lasers. The SHCD based on MCF provides a compromise and cost efficient scheme between conventional intradyne coherent detection and intensity modulation and direct detection (IM/DD) schemes. Both US and DS have acceptable BER performance and high spectral efficiency.

© 2017 Optical Society of America

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References

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2016 (3)

2015 (6)

S. Y. Jung, S. M. Jung, and S. K. Han, “AMO-FBMC for Asynchronous heterogeneous signal integrated optical transmission,” IEEE Photonics Technol. Lett. 27(2), 133–136 (2015).
[Crossref]

Z. Feng, M. Tang, S. Fu, L. Deng, Q. Wu, R. Lin, R. Wang, P. Shum, and D. Liu, “Performance-enhanced direct detection optical OFDM transmission with CAZAC equalization,” IEEE Photonics Technol. Lett. 27(14), 1507–1510 (2015).
[Crossref]

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

B. Li, Z. Feng, M. Tang, Z. Xu, S. Fu, Q. Wu, L. Deng, W. Tong, S. Liu, and P. P. Shum, “Experimental demonstration of large capacity WSDM optical access network with multicore fibers and advanced modulation formats,” Opt. Express 23(9), 10997–11006 (2015).
[Crossref] [PubMed]

Z. Li, L. Yi, X. Wang, and W. Hu, “28 Gb/s duobinary signal transmission over 40 km based on 10 GHz DML and PIN for 100 Gb/s PON,” Opt. Express 23(16), 20249–20256 (2015).
[Crossref] [PubMed]

Y. Chen, J. Li, P. Zhu, Z. Wu, P. Zhou, Y. Tian, F. Ren, J. Yu, D. Ge, J. Chen, Y. He, and Z. Chen, “Novel MDM-PON scheme utilizing self-homodyne detection for high-speed/capacity access networks,” Opt. Express 23(25), 32054–32062 (2015).
[Crossref] [PubMed]

2014 (4)

2013 (4)

2012 (1)

K. Suzuki, H. Ono, T. Mizuno, Y. Hashizume, Y. Abe, T. Takahashi, K. Takenaga, S. Matsuo, and H. Takara, “Pump light source for distributed Raman amplification in MCFs with LD sharing circuit,” IEEE Photonics Technol. Lett. 24(21), 1937–1940 (2012).
[Crossref]

2010 (2)

2009 (1)

1988 (1)

R. Noe, H. Heidrich, and D. Hoffmann, “Endless polarization control systems for coherent optics,” J. Lightwave Technol. 6(7), 1199–1208 (1988).
[Crossref]

Abe, Y.

K. Suzuki, H. Ono, T. Mizuno, Y. Hashizume, Y. Abe, T. Takahashi, K. Takenaga, S. Matsuo, and H. Takara, “Pump light source for distributed Raman amplification in MCFs with LD sharing circuit,” IEEE Photonics Technol. Lett. 24(21), 1937–1940 (2012).
[Crossref]

Ansari, N.

Awaji, Y.

B. J. Puttnam, R. S. Luis, J. M. D. Mendinueta, J. Sakaguchi, W. Klaus, Y. Kamio, M. Nakamura, N. Wada, Y. Awaji, A. Kanno, T. Kawanishi, and T. Miyazaki, “Self-homodyne detection in optical communication systems,” Photonics 1(2), 110–130 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. D. Mendinueta, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “Investigating self-homodyne coherent detection in a 19 channel space-division-multiplexed transmission link,” Opt. Express 21(2), 1561–1566 (2013).
[Crossref] [PubMed]

Bayvel, P.

Buset, J. M.

Chen, J.

Chen, Y.

Chen, Z.

Cho, K. Y.

Chung, Y. C.

Cvijetic, N.

Deng, L.

Z. Feng, Q. Wu, M. Tang, R. Lin, R. Wang, L. Deng, S. Fu, P. P. Shum, and D. Liu, “Dispersion-tolerant DDO-OFDM system and simplified adaptive modulation scheme using CAZAC precoding,” J. Lightwave Technol. 34(11), 2743–2751 (2016).
[Crossref]

B. Li, Z. Feng, M. Tang, Z. Xu, S. Fu, Q. Wu, L. Deng, W. Tong, S. Liu, and P. P. Shum, “Experimental demonstration of large capacity WSDM optical access network with multicore fibers and advanced modulation formats,” Opt. Express 23(9), 10997–11006 (2015).
[Crossref] [PubMed]

Z. Feng, M. Tang, S. Fu, L. Deng, Q. Wu, R. Lin, R. Wang, P. Shum, and D. Liu, “Performance-enhanced direct detection optical OFDM transmission with CAZAC equalization,” IEEE Photonics Technol. Lett. 27(14), 1507–1510 (2015).
[Crossref]

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Eiselt, M.

J. Wei, N. Eiselt, H. Griesser, K. Grobe, M. Eiselt, J. J. Vegas-Olmos, I. T. Monroy, and J. Elbers, “First demonstration of real-time end-to-end 40 Gb/s PAM-4 system using 10-G transmitter for next generation access applications,” Proc. ECOC’15 (2015).
[Crossref]

Eiselt, N.

J. Wei, N. Eiselt, H. Griesser, K. Grobe, M. Eiselt, J. J. Vegas-Olmos, I. T. Monroy, and J. Elbers, “First demonstration of real-time end-to-end 40 Gb/s PAM-4 system using 10-G transmitter for next generation access applications,” Proc. ECOC’15 (2015).
[Crossref]

Elbers, J.

J. Wei, N. Eiselt, H. Griesser, K. Grobe, M. Eiselt, J. J. Vegas-Olmos, I. T. Monroy, and J. Elbers, “First demonstration of real-time end-to-end 40 Gb/s PAM-4 system using 10-G transmitter for next generation access applications,” Proc. ECOC’15 (2015).
[Crossref]

El-Sahn, Z. A.

Feng, Z.

Z. Feng, Q. Wu, M. Tang, R. Lin, R. Wang, L. Deng, S. Fu, P. P. Shum, and D. Liu, “Dispersion-tolerant DDO-OFDM system and simplified adaptive modulation scheme using CAZAC precoding,” J. Lightwave Technol. 34(11), 2743–2751 (2016).
[Crossref]

B. Li, Z. Feng, M. Tang, Z. Xu, S. Fu, Q. Wu, L. Deng, W. Tong, S. Liu, and P. P. Shum, “Experimental demonstration of large capacity WSDM optical access network with multicore fibers and advanced modulation formats,” Opt. Express 23(9), 10997–11006 (2015).
[Crossref] [PubMed]

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Z. Feng, M. Tang, S. Fu, L. Deng, Q. Wu, R. Lin, R. Wang, P. Shum, and D. Liu, “Performance-enhanced direct detection optical OFDM transmission with CAZAC equalization,” IEEE Photonics Technol. Lett. 27(14), 1507–1510 (2015).
[Crossref]

Fu, S.

Z. Feng, Q. Wu, M. Tang, R. Lin, R. Wang, L. Deng, S. Fu, P. P. Shum, and D. Liu, “Dispersion-tolerant DDO-OFDM system and simplified adaptive modulation scheme using CAZAC precoding,” J. Lightwave Technol. 34(11), 2743–2751 (2016).
[Crossref]

Z. Feng, M. Tang, S. Fu, L. Deng, Q. Wu, R. Lin, R. Wang, P. Shum, and D. Liu, “Performance-enhanced direct detection optical OFDM transmission with CAZAC equalization,” IEEE Photonics Technol. Lett. 27(14), 1507–1510 (2015).
[Crossref]

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

B. Li, Z. Feng, M. Tang, Z. Xu, S. Fu, Q. Wu, L. Deng, W. Tong, S. Liu, and P. P. Shum, “Experimental demonstration of large capacity WSDM optical access network with multicore fibers and advanced modulation formats,” Opt. Express 23(9), 10997–11006 (2015).
[Crossref] [PubMed]

Gan, L.

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Ge, D.

Griesser, H.

J. Wei, N. Eiselt, H. Griesser, K. Grobe, M. Eiselt, J. J. Vegas-Olmos, I. T. Monroy, and J. Elbers, “First demonstration of real-time end-to-end 40 Gb/s PAM-4 system using 10-G transmitter for next generation access applications,” Proc. ECOC’15 (2015).
[Crossref]

Grobe, K.

J. Wei, N. Eiselt, H. Griesser, K. Grobe, M. Eiselt, J. J. Vegas-Olmos, I. T. Monroy, and J. Elbers, “First demonstration of real-time end-to-end 40 Gb/s PAM-4 system using 10-G transmitter for next generation access applications,” Proc. ECOC’15 (2015).
[Crossref]

Han, S. K.

S. Y. Jung, S. M. Jung, and S. K. Han, “AMO-FBMC for Asynchronous heterogeneous signal integrated optical transmission,” IEEE Photonics Technol. Lett. 27(2), 133–136 (2015).
[Crossref]

Hashizume, Y.

K. Suzuki, H. Ono, T. Mizuno, Y. Hashizume, Y. Abe, T. Takahashi, K. Takenaga, S. Matsuo, and H. Takara, “Pump light source for distributed Raman amplification in MCFs with LD sharing circuit,” IEEE Photonics Technol. Lett. 24(21), 1937–1940 (2012).
[Crossref]

He, Y.

Heidrich, H.

R. Noe, H. Heidrich, and D. Hoffmann, “Endless polarization control systems for coherent optics,” J. Lightwave Technol. 6(7), 1199–1208 (1988).
[Crossref]

Hoffmann, D.

R. Noe, H. Heidrich, and D. Hoffmann, “Endless polarization control systems for coherent optics,” J. Lightwave Technol. 6(7), 1199–1208 (1988).
[Crossref]

Hong, U. H.

Hu, J.

Hu, W.

Igarashi, K.

Imamura, K.

Jansen, S. L.

Ji, H.

Jung, S. M.

S. Y. Jung, S. M. Jung, and S. K. Han, “AMO-FBMC for Asynchronous heterogeneous signal integrated optical transmission,” IEEE Photonics Technol. Lett. 27(2), 133–136 (2015).
[Crossref]

Jung, S. Y.

S. Y. Jung, S. M. Jung, and S. K. Han, “AMO-FBMC for Asynchronous heterogeneous signal integrated optical transmission,” IEEE Photonics Technol. Lett. 27(2), 133–136 (2015).
[Crossref]

Kamio, Y.

B. J. Puttnam, R. S. Luis, J. M. D. Mendinueta, J. Sakaguchi, W. Klaus, Y. Kamio, M. Nakamura, N. Wada, Y. Awaji, A. Kanno, T. Kawanishi, and T. Miyazaki, “Self-homodyne detection in optical communication systems,” Photonics 1(2), 110–130 (2014).
[Crossref]

R. S. Luis, B. J. Puttnam, J. M. D. Mendineta, J. Sakaguchi, S. Shinada, M. Nakamura, Y. Kamio, and N. Wada, “Self-homodyne detection of polarization-multiplexed pilot tone signals using a polarization diversity coherent receiver,” Proc. ECOC’13 (2013).
[Crossref]

Kanno, A.

B. J. Puttnam, R. S. Luis, J. M. D. Mendinueta, J. Sakaguchi, W. Klaus, Y. Kamio, M. Nakamura, N. Wada, Y. Awaji, A. Kanno, T. Kawanishi, and T. Miyazaki, “Self-homodyne detection in optical communication systems,” Photonics 1(2), 110–130 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. D. Mendinueta, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “Investigating self-homodyne coherent detection in a 19 channel space-division-multiplexed transmission link,” Opt. Express 21(2), 1561–1566 (2013).
[Crossref] [PubMed]

Kawanishi, T.

B. J. Puttnam, R. S. Luis, J. M. D. Mendinueta, J. Sakaguchi, W. Klaus, Y. Kamio, M. Nakamura, N. Wada, Y. Awaji, A. Kanno, T. Kawanishi, and T. Miyazaki, “Self-homodyne detection in optical communication systems,” Photonics 1(2), 110–130 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. D. Mendinueta, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “Investigating self-homodyne coherent detection in a 19 channel space-division-multiplexed transmission link,” Opt. Express 21(2), 1561–1566 (2013).
[Crossref] [PubMed]

Kim, H.

Klaus, W.

B. J. Puttnam, R. S. Luis, J. M. D. Mendinueta, J. Sakaguchi, W. Klaus, Y. Kamio, M. Nakamura, N. Wada, Y. Awaji, A. Kanno, T. Kawanishi, and T. Miyazaki, “Self-homodyne detection in optical communication systems,” Photonics 1(2), 110–130 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. D. Mendinueta, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “Investigating self-homodyne coherent detection in a 19 channel space-division-multiplexed transmission link,” Opt. Express 21(2), 1561–1566 (2013).
[Crossref] [PubMed]

Koch, B.

B. Koch, R. Noe, V. Mirvoda, and D. Sandel, “20 krad/s endless optical polarization and phase control,” Electron. Lett. 49(7), 483–485 (2013).
[Crossref]

Lavery, D.

Li, B.

B. Li, Z. Feng, M. Tang, Z. Xu, S. Fu, Q. Wu, L. Deng, W. Tong, S. Liu, and P. P. Shum, “Experimental demonstration of large capacity WSDM optical access network with multicore fibers and advanced modulation formats,” Opt. Express 23(9), 10997–11006 (2015).
[Crossref] [PubMed]

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Li, J.

Li, Z.

Lin, R.

Z. Feng, Q. Wu, M. Tang, R. Lin, R. Wang, L. Deng, S. Fu, P. P. Shum, and D. Liu, “Dispersion-tolerant DDO-OFDM system and simplified adaptive modulation scheme using CAZAC precoding,” J. Lightwave Technol. 34(11), 2743–2751 (2016).
[Crossref]

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Z. Feng, M. Tang, S. Fu, L. Deng, Q. Wu, R. Lin, R. Wang, P. Shum, and D. Liu, “Performance-enhanced direct detection optical OFDM transmission with CAZAC equalization,” IEEE Photonics Technol. Lett. 27(14), 1507–1510 (2015).
[Crossref]

Liu, D.

Z. Feng, Q. Wu, M. Tang, R. Lin, R. Wang, L. Deng, S. Fu, P. P. Shum, and D. Liu, “Dispersion-tolerant DDO-OFDM system and simplified adaptive modulation scheme using CAZAC precoding,” J. Lightwave Technol. 34(11), 2743–2751 (2016).
[Crossref]

Z. Feng, M. Tang, S. Fu, L. Deng, Q. Wu, R. Lin, R. Wang, P. Shum, and D. Liu, “Performance-enhanced direct detection optical OFDM transmission with CAZAC equalization,” IEEE Photonics Technol. Lett. 27(14), 1507–1510 (2015).
[Crossref]

Liu, S.

B. Li, Z. Feng, M. Tang, Z. Xu, S. Fu, Q. Wu, L. Deng, W. Tong, S. Liu, and P. P. Shum, “Experimental demonstration of large capacity WSDM optical access network with multicore fibers and advanced modulation formats,” Opt. Express 23(9), 10997–11006 (2015).
[Crossref] [PubMed]

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Long, S.

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Luis, R. S.

B. J. Puttnam, R. S. Luis, J. M. D. Mendinueta, J. Sakaguchi, W. Klaus, Y. Kamio, M. Nakamura, N. Wada, Y. Awaji, A. Kanno, T. Kawanishi, and T. Miyazaki, “Self-homodyne detection in optical communication systems,” Photonics 1(2), 110–130 (2014).
[Crossref]

R. S. Luis, B. J. Puttnam, J. M. D. Mendineta, J. Sakaguchi, S. Shinada, M. Nakamura, Y. Kamio, and N. Wada, “Self-homodyne detection of polarization-multiplexed pilot tone signals using a polarization diversity coherent receiver,” Proc. ECOC’13 (2013).
[Crossref]

Maeda, K.

Maher, R.

Matsuo, S.

K. Suzuki, H. Ono, T. Mizuno, Y. Hashizume, Y. Abe, T. Takahashi, K. Takenaga, S. Matsuo, and H. Takara, “Pump light source for distributed Raman amplification in MCFs with LD sharing circuit,” IEEE Photonics Technol. Lett. 24(21), 1937–1940 (2012).
[Crossref]

Mendineta, J. M. D.

R. S. Luis, B. J. Puttnam, J. M. D. Mendineta, J. Sakaguchi, S. Shinada, M. Nakamura, Y. Kamio, and N. Wada, “Self-homodyne detection of polarization-multiplexed pilot tone signals using a polarization diversity coherent receiver,” Proc. ECOC’13 (2013).
[Crossref]

Mendinueta, J. M. D.

B. J. Puttnam, R. S. Luis, J. M. D. Mendinueta, J. Sakaguchi, W. Klaus, Y. Kamio, M. Nakamura, N. Wada, Y. Awaji, A. Kanno, T. Kawanishi, and T. Miyazaki, “Self-homodyne detection in optical communication systems,” Photonics 1(2), 110–130 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. D. Mendinueta, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “Investigating self-homodyne coherent detection in a 19 channel space-division-multiplexed transmission link,” Opt. Express 21(2), 1561–1566 (2013).
[Crossref] [PubMed]

Millar, D.

Mirvoda, V.

B. Koch, R. Noe, V. Mirvoda, and D. Sandel, “20 krad/s endless optical polarization and phase control,” Electron. Lett. 49(7), 483–485 (2013).
[Crossref]

Miyazaki, T.

B. J. Puttnam, R. S. Luis, J. M. D. Mendinueta, J. Sakaguchi, W. Klaus, Y. Kamio, M. Nakamura, N. Wada, Y. Awaji, A. Kanno, T. Kawanishi, and T. Miyazaki, “Self-homodyne detection in optical communication systems,” Photonics 1(2), 110–130 (2014).
[Crossref]

Mizuno, T.

K. Suzuki, H. Ono, T. Mizuno, Y. Hashizume, Y. Abe, T. Takahashi, K. Takenaga, S. Matsuo, and H. Takara, “Pump light source for distributed Raman amplification in MCFs with LD sharing circuit,” IEEE Photonics Technol. Lett. 24(21), 1937–1940 (2012).
[Crossref]

Monroy, I. T.

J. Wei, N. Eiselt, H. Griesser, K. Grobe, M. Eiselt, J. J. Vegas-Olmos, I. T. Monroy, and J. Elbers, “First demonstration of real-time end-to-end 40 Gb/s PAM-4 system using 10-G transmitter for next generation access applications,” Proc. ECOC’15 (2015).
[Crossref]

Morita, I.

Nakamura, M.

B. J. Puttnam, R. S. Luis, J. M. D. Mendinueta, J. Sakaguchi, W. Klaus, Y. Kamio, M. Nakamura, N. Wada, Y. Awaji, A. Kanno, T. Kawanishi, and T. Miyazaki, “Self-homodyne detection in optical communication systems,” Photonics 1(2), 110–130 (2014).
[Crossref]

R. S. Luis, B. J. Puttnam, J. M. D. Mendineta, J. Sakaguchi, S. Shinada, M. Nakamura, Y. Kamio, and N. Wada, “Self-homodyne detection of polarization-multiplexed pilot tone signals using a polarization diversity coherent receiver,” Proc. ECOC’13 (2013).
[Crossref]

Noe, R.

B. Koch, R. Noe, V. Mirvoda, and D. Sandel, “20 krad/s endless optical polarization and phase control,” Electron. Lett. 49(7), 483–485 (2013).
[Crossref]

R. Noe, H. Heidrich, and D. Hoffmann, “Endless polarization control systems for coherent optics,” J. Lightwave Technol. 6(7), 1199–1208 (1988).
[Crossref]

Ono, H.

K. Suzuki, H. Ono, T. Mizuno, Y. Hashizume, Y. Abe, T. Takahashi, K. Takenaga, S. Matsuo, and H. Takara, “Pump light source for distributed Raman amplification in MCFs with LD sharing circuit,” IEEE Photonics Technol. Lett. 24(21), 1937–1940 (2012).
[Crossref]

Plant, D. V.

Puttnam, B. J.

B. J. Puttnam, R. S. Luis, J. M. D. Mendinueta, J. Sakaguchi, W. Klaus, Y. Kamio, M. Nakamura, N. Wada, Y. Awaji, A. Kanno, T. Kawanishi, and T. Miyazaki, “Self-homodyne detection in optical communication systems,” Photonics 1(2), 110–130 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. D. Mendinueta, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “Investigating self-homodyne coherent detection in a 19 channel space-division-multiplexed transmission link,” Opt. Express 21(2), 1561–1566 (2013).
[Crossref] [PubMed]

R. S. Luis, B. J. Puttnam, J. M. D. Mendineta, J. Sakaguchi, S. Shinada, M. Nakamura, Y. Kamio, and N. Wada, “Self-homodyne detection of polarization-multiplexed pilot tone signals using a polarization diversity coherent receiver,” Proc. ECOC’13 (2013).
[Crossref]

Qian, D.

Ren, F.

Saito, T.

Sakaguchi, J.

B. J. Puttnam, R. S. Luis, J. M. D. Mendinueta, J. Sakaguchi, W. Klaus, Y. Kamio, M. Nakamura, N. Wada, Y. Awaji, A. Kanno, T. Kawanishi, and T. Miyazaki, “Self-homodyne detection in optical communication systems,” Photonics 1(2), 110–130 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. D. Mendinueta, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “Investigating self-homodyne coherent detection in a 19 channel space-division-multiplexed transmission link,” Opt. Express 21(2), 1561–1566 (2013).
[Crossref] [PubMed]

R. S. Luis, B. J. Puttnam, J. M. D. Mendineta, J. Sakaguchi, S. Shinada, M. Nakamura, Y. Kamio, and N. Wada, “Self-homodyne detection of polarization-multiplexed pilot tone signals using a polarization diversity coherent receiver,” Proc. ECOC’13 (2013).
[Crossref]

Sandel, D.

B. Koch, R. Noe, V. Mirvoda, and D. Sandel, “20 krad/s endless optical polarization and phase control,” Electron. Lett. 49(7), 483–485 (2013).
[Crossref]

Sasa, T.

Savory, S. J.

Schenk, T. C. W.

Shim, H. K.

Shinada, S.

R. S. Luis, B. J. Puttnam, J. M. D. Mendineta, J. Sakaguchi, S. Shinada, M. Nakamura, Y. Kamio, and N. Wada, “Self-homodyne detection of polarization-multiplexed pilot tone signals using a polarization diversity coherent receiver,” Proc. ECOC’13 (2013).
[Crossref]

Shum, P.

Z. Feng, M. Tang, S. Fu, L. Deng, Q. Wu, R. Lin, R. Wang, P. Shum, and D. Liu, “Performance-enhanced direct detection optical OFDM transmission with CAZAC equalization,” IEEE Photonics Technol. Lett. 27(14), 1507–1510 (2015).
[Crossref]

Shum, P. P.

Sugizaki, R.

Suzuki, K.

K. Suzuki, H. Ono, T. Mizuno, Y. Hashizume, Y. Abe, T. Takahashi, K. Takenaga, S. Matsuo, and H. Takara, “Pump light source for distributed Raman amplification in MCFs with LD sharing circuit,” IEEE Photonics Technol. Lett. 24(21), 1937–1940 (2012).
[Crossref]

Suzuki, M.

Takahashi, T.

K. Suzuki, H. Ono, T. Mizuno, Y. Hashizume, Y. Abe, T. Takahashi, K. Takenaga, S. Matsuo, and H. Takara, “Pump light source for distributed Raman amplification in MCFs with LD sharing circuit,” IEEE Photonics Technol. Lett. 24(21), 1937–1940 (2012).
[Crossref]

Takara, H.

K. Suzuki, H. Ono, T. Mizuno, Y. Hashizume, Y. Abe, T. Takahashi, K. Takenaga, S. Matsuo, and H. Takara, “Pump light source for distributed Raman amplification in MCFs with LD sharing circuit,” IEEE Photonics Technol. Lett. 24(21), 1937–1940 (2012).
[Crossref]

Takenaga, K.

K. Suzuki, H. Ono, T. Mizuno, Y. Hashizume, Y. Abe, T. Takahashi, K. Takenaga, S. Matsuo, and H. Takara, “Pump light source for distributed Raman amplification in MCFs with LD sharing circuit,” IEEE Photonics Technol. Lett. 24(21), 1937–1940 (2012).
[Crossref]

Takeshima, K.

Tanaka, H.

Tang, M.

Z. Feng, Q. Wu, M. Tang, R. Lin, R. Wang, L. Deng, S. Fu, P. P. Shum, and D. Liu, “Dispersion-tolerant DDO-OFDM system and simplified adaptive modulation scheme using CAZAC precoding,” J. Lightwave Technol. 34(11), 2743–2751 (2016).
[Crossref]

B. Li, Z. Feng, M. Tang, Z. Xu, S. Fu, Q. Wu, L. Deng, W. Tong, S. Liu, and P. P. Shum, “Experimental demonstration of large capacity WSDM optical access network with multicore fibers and advanced modulation formats,” Opt. Express 23(9), 10997–11006 (2015).
[Crossref] [PubMed]

Z. Feng, M. Tang, S. Fu, L. Deng, Q. Wu, R. Lin, R. Wang, P. Shum, and D. Liu, “Performance-enhanced direct detection optical OFDM transmission with CAZAC equalization,” IEEE Photonics Technol. Lett. 27(14), 1507–1510 (2015).
[Crossref]

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Thomsen, B. C.

Tian, Y.

Tong, W.

B. Li, Z. Feng, M. Tang, Z. Xu, S. Fu, Q. Wu, L. Deng, W. Tong, S. Liu, and P. P. Shum, “Experimental demonstration of large capacity WSDM optical access network with multicore fibers and advanced modulation formats,” Opt. Express 23(9), 10997–11006 (2015).
[Crossref] [PubMed]

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Tsuchida, Y.

Tsuritani, T.

Vegas-Olmos, J. J.

J. Wei, N. Eiselt, H. Griesser, K. Grobe, M. Eiselt, J. J. Vegas-Olmos, I. T. Monroy, and J. Elbers, “First demonstration of real-time end-to-end 40 Gb/s PAM-4 system using 10-G transmitter for next generation access applications,” Proc. ECOC’15 (2015).
[Crossref]

Wada, N.

B. J. Puttnam, R. S. Luis, J. M. D. Mendinueta, J. Sakaguchi, W. Klaus, Y. Kamio, M. Nakamura, N. Wada, Y. Awaji, A. Kanno, T. Kawanishi, and T. Miyazaki, “Self-homodyne detection in optical communication systems,” Photonics 1(2), 110–130 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. D. Mendinueta, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “Investigating self-homodyne coherent detection in a 19 channel space-division-multiplexed transmission link,” Opt. Express 21(2), 1561–1566 (2013).
[Crossref] [PubMed]

R. S. Luis, B. J. Puttnam, J. M. D. Mendineta, J. Sakaguchi, S. Shinada, M. Nakamura, Y. Kamio, and N. Wada, “Self-homodyne detection of polarization-multiplexed pilot tone signals using a polarization diversity coherent receiver,” Proc. ECOC’13 (2013).
[Crossref]

Wang, R.

Z. Feng, Q. Wu, M. Tang, R. Lin, R. Wang, L. Deng, S. Fu, P. P. Shum, and D. Liu, “Dispersion-tolerant DDO-OFDM system and simplified adaptive modulation scheme using CAZAC precoding,” J. Lightwave Technol. 34(11), 2743–2751 (2016).
[Crossref]

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Z. Feng, M. Tang, S. Fu, L. Deng, Q. Wu, R. Lin, R. Wang, P. Shum, and D. Liu, “Performance-enhanced direct detection optical OFDM transmission with CAZAC equalization,” IEEE Photonics Technol. Lett. 27(14), 1507–1510 (2015).
[Crossref]

Wang, T.

Wang, X.

Watanabe, K.

Wei, J.

J. Wei, N. Eiselt, H. Griesser, K. Grobe, M. Eiselt, J. J. Vegas-Olmos, I. T. Monroy, and J. Elbers, “First demonstration of real-time end-to-end 40 Gb/s PAM-4 system using 10-G transmitter for next generation access applications,” Proc. ECOC’15 (2015).
[Crossref]

Wu, Q.

Wu, Z.

Xu, Z.

B. Li, Z. Feng, M. Tang, Z. Xu, S. Fu, Q. Wu, L. Deng, W. Tong, S. Liu, and P. P. Shum, “Experimental demonstration of large capacity WSDM optical access network with multicore fibers and advanced modulation formats,” Opt. Express 23(9), 10997–11006 (2015).
[Crossref] [PubMed]

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Yi, L.

Yu, J.

Zhang, J.

Zhang, L.

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Zhang, R.

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
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Zhao, J.

Zhou, H.

Z. Feng, B. Li, M. Tang, L. Gan, R. Wang, R. Lin, Z. Xu, S. Fu, L. Deng, W. Tong, S. Long, L. Zhang, H. Zhou, R. Zhang, S. Liu, and P. P. Shum, “Multicore-fiber-enabled WSDM optical access network with centralized carrier delivery and RSOA-based adaptive modulation,” IEEE Photonics J. 7(4), 7201309 (2015).
[Crossref]

Zhou, P.

Zhu, P.

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B. J. Puttnam, J. Sakaguchi, J. M. D. Mendinueta, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “Investigating self-homodyne coherent detection in a 19 channel space-division-multiplexed transmission link,” Opt. Express 21(2), 1561–1566 (2013).
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J. Wei, N. Eiselt, H. Griesser, K. Grobe, M. Eiselt, J. J. Vegas-Olmos, I. T. Monroy, and J. Elbers, “First demonstration of real-time end-to-end 40 Gb/s PAM-4 system using 10-G transmitter for next generation access applications,” Proc. ECOC’15 (2015).
[Crossref]

H. Hu, R. Ssif, F. Ye, S. Gross, M. J. Withford, T. Morioka, and L. K. Oxenlowe, “Bidirectional 120 Gbps SDM-WDM-PON with colourless ONU using 10 Gbps optical components without DSP,” Proc. OFC’16, Paper M3C.1 (2016).
[Crossref]

F. Ren, J. Li, T. Hu, R. Tang, J. Yu, Q. Mo, Y. He, Z. Chen, and Z. Li, “Experimental demonstration of 3-mode MDM-PON transmission over 7.4-km low-mode-crosstalk FMF,” Proc. OFC’16, Paper W2A.58 (2016).
[Crossref]

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Figures (6)

Fig. 1
Fig. 1 Schematic of proposed WDM-SDM access network based on MCF and SHCD. (CW: continuous wave, PS: power splitter, Rx: receiver, Mod: modulator, Mux: multiplexer, Demux: de-multiplexer, EDFA: erbium doped fiber amplifier, OC: optical circulator, MCF: multicore fiber, Tx: transmitter, PDM: polarization multiplexing, CO-Rx: coherent optical receiver, OLT: optical line terminal, ODN: optical distribution network, ONU: optical network unit.)
Fig. 2
Fig. 2 Experimental setup for WDM-SDM access network using SHCD and FBMC. (a) Cross section view of the fabricated seven-core fiber, (b) Picture of the overall fan-in device with single mode fiber pigtails. (Rx: receiver, Tx: transmitter, VOA: variable optical attenuator, PRBS: pseudo random binary sequence, PC: polarization controller, FBMC: filter bank multi carrier, AWG: arbitrary waveform generator, SMF: single mode fiber, PBS: polarization beam splitter, DSO: digital storage oscilloscope, DSP: digital signal processing, DF: decorrelation fiber)
Fig. 3
Fig. 3 (a) BER performance comparison between intradyne and SHCD, (b) Influence of CFO and PN compensation in SHCD, (c) BER performances for all cores.(w/:with, w/o: without, CFO: carrier frequency offset compensation, PN: phase noise compensation, SD-FEC: soft decision forward error correction coding)
Fig. 4
Fig. 4 (a) Spectra of 4-channel PDM-16QAM-OFDM signals and LO lights in downstream transmission, (b) Spectra of 4-channel 32QAM-FBMC signals before and after modulation in upstream transmission.
Fig. 5
Fig. 5 (a) BER performance of WDM transmission in core 7 and the constellation diagrams at ROP = −15 dBm for channel 3 are inserted as insets, (b) Tolerance to laser linewidth in single wavelength SDM based SHCD system, and the insets are the recovered constellation diagrams at ROP = −17 dBm on X-polarization for 100-kHz and 10-MHz lasers. (w/: with, PN: phase noise compensation)
Fig. 6
Fig. 6 Transmission performance for upstream in both OB2B case and after 37-km MCF transmission. (a) Estimated SNR for different ROPs and wavelength channels across the entire signal bandwidth, (b) BER performance of all the four wavelength channels at variable received optical powers.

Tables (1)

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Table 1 Main optical parameters comparison between MCF and SMF

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