Abstract

We investigate a high-capacity, space-division-multiplexed (SDM) transmission system using self-homodyne detection (SHD) in multi-core fiber (MCF). We first investigate SHD phase noise cancellation with both kHz and MHz range linewidths for both quadrature-phase shift-keyed (QPSK) and 16 quadrature-amplitude modulation (16QAM) signals, finding that phase noise cancellation in SHD enabled transmission with MHz linewidth lasers that resulted in error floors when using intradyne detection. We then demonstrate a high throughput SHD transmission system using low-cost, MHz linewidth distributed feedback lasers. We transmit a CW pilot-tone on a single core of a 10.1 km MCF span with the remaining 18 cores used to transmit 125 wavelength-division multiplexed (WDM) QPSK and polarization-division-multiplexed (PDM)-QPSK signals with 50 GHz channel spacing at 25 GBd. For PDM transmission and assuming a 7% forward-error correction overhead this is equivalent 210 Tb/s transmission with a SE of 33.4 b/s/Hz. High-capacity transmission is achieved despite high inter-core crosstalk, broad transmitter linewidth and narrow channel spacing, showing that combining SHD with MCF enables high throughput, low-cost transmission in next-generation optical networks.

© 2014 Optical Society of America

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References

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    [Crossref]
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    [Crossref]

2014 (3)

Y. Lee, K. Tanaka, K. Hiruma, E. Nomoto, T. Sugawara, and H. Arimoto, “Experimental Demonstration of a Highly Reliable Multicore-Fiber-Based Optical Network,” IEEE Photon. Technol. Lett. 26(6), 538–540 (2014).
[Crossref]

R. S. Luis, B. J. Puttnam, J. M. D. Mendinueta, W. Klaus, J. Sakaguchi, Y. Awaji, T. Kawanishi, A. Kanno, and N. Wada, “OSNR Penalty of Self-Homodyne Coherent Detection in Spatial-Division-Multiplexing Systems,” IEEE Photon. Technol. Lett. 26(5), 477–479 (2014).
[Crossref]

Z. Qu, S. Fu, M. Zhang, M. Tang, P. Shum, and D. Liu, “Analytical Investigation on Self-Homodyne Coherent System Based on Few-Mode Fiber,” IEEE Photon. Technol. Lett. 26(1), 74–77 (2014).
[Crossref]

2013 (3)

2011 (2)

2010 (2)

M. Sjödin, P. Johannisson, M. Karlsson, Z. Tong, and P. A. Andrekson, “OSNR requirements for self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(2), 91–93 (2010).
[Crossref]

P. Johannisson, M. Sjödin, M. Karlsson, E. Tipsuwannakul, and P. Andrekson, “Cancellation of nonlinear phase distortion in self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(11), 802–804 (2010).
[Crossref]

2007 (1)

2006 (1)

T. Miyazaki, “Linewidth-Tolerant QPSK Homodyne Transmission Using a Polarization-Multiplexed Pilot Carrier,” IEEE Photon. Technol. Lett. 18(2), 388–390 (2006).
[Crossref]

2005 (1)

T. Miyazaki and F. Kubota, “PSK self-homodyne detection using a pilot carrier for multibit/symbol transmission with inverse-RZ signal,” IEEE Photon. Technol. Lett. 17(6), 1334–1336 (2005).
[Crossref]

Agrell, E.

Andrekson, P.

P. Johannisson, M. Sjödin, M. Karlsson, E. Tipsuwannakul, and P. Andrekson, “Cancellation of nonlinear phase distortion in self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(11), 802–804 (2010).
[Crossref]

Andrekson, P. A.

M. Sjödin, E. Agrell, P. Johannisson, G.-W. Lu, P. A. Andrekson, and M. Karlsson, “Filter optimization for self-homodyne coherent WDM systems using interleaved polarization division,” J. Lightwave Technol. 29(9), 1219–1226 (2011).
[Crossref]

M. Sjödin, P. Johannisson, M. Karlsson, Z. Tong, and P. A. Andrekson, “OSNR requirements for self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(2), 91–93 (2010).
[Crossref]

Arimoto, H.

Y. Lee, K. Tanaka, K. Hiruma, E. Nomoto, T. Sugawara, and H. Arimoto, “Experimental Demonstration of a Highly Reliable Multicore-Fiber-Based Optical Network,” IEEE Photon. Technol. Lett. 26(6), 538–540 (2014).
[Crossref]

Awaji, Y.

R. S. Luis, B. J. Puttnam, J. M. D. Mendinueta, W. Klaus, J. Sakaguchi, Y. Awaji, T. Kawanishi, A. Kanno, and N. Wada, “OSNR Penalty of Self-Homodyne Coherent Detection in Spatial-Division-Multiplexing Systems,” IEEE Photon. Technol. Lett. 26(5), 477–479 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. 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]

J. Sakaguchi, B. J. Puttnam, W. Klaus, Y. Awaji, N. Wada, A. Kanno, T. Kawanishi, K. Imamura, H. Inaba, K. Mukasa, R. Sugizaki, T. Kobayashi, and M. Watanabe, “305 Tb/s space division multiplexed transmission using homogeneous 19-core fiber,” J. Lightwave Technol. 31(4), 554–562 (2013).
[Crossref]

R. Luis, B. J. Puttnam, J.-M. Delgado Mendinueta, J. Sakaguchi, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “In-service method of path length alignment in SDM systems with self-homodyne detection,” in Proceedings of OptoElectronics and Communications Conference2013, paper ThR3.3.

J. M. Delgado Mendinueta, B. J. Puttnam, J. Sakaguchi, R. S. Luis, W. Klaus, Y. Awaji, A. Kanno, and T. Kawanishi, “Energy efficient carrier phase recovery for self-homodyne polarization-multiplexed QPSK,” in Proceedings of OptoElectronics and Communications conference, 2013, paper ThR3–5.

Chandrasekhar, S.

Delgado Mendinueta, J. M.

J. M. Delgado Mendinueta, B. J. Puttnam, J. Sakaguchi, R. S. Luis, W. Klaus, Y. Awaji, A. Kanno, and T. Kawanishi, “Energy efficient carrier phase recovery for self-homodyne polarization-multiplexed QPSK,” in Proceedings of OptoElectronics and Communications conference, 2013, paper ThR3–5.

Delgado Mendinueta, J.-M.

R. Luis, B. J. Puttnam, J.-M. Delgado Mendinueta, J. Sakaguchi, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “In-service method of path length alignment in SDM systems with self-homodyne detection,” in Proceedings of OptoElectronics and Communications Conference2013, paper ThR3.3.

Dimarcello, F. V.

Fini, J. M.

Fishteyn, M.

Fu, S.

Z. Qu, S. Fu, M. Zhang, M. Tang, P. Shum, and D. Liu, “Analytical Investigation on Self-Homodyne Coherent System Based on Few-Mode Fiber,” IEEE Photon. Technol. Lett. 26(1), 74–77 (2014).
[Crossref]

Hiruma, K.

Y. Lee, K. Tanaka, K. Hiruma, E. Nomoto, T. Sugawara, and H. Arimoto, “Experimental Demonstration of a Highly Reliable Multicore-Fiber-Based Optical Network,” IEEE Photon. Technol. Lett. 26(6), 538–540 (2014).
[Crossref]

Imamura, K.

Inaba, H.

Jan, O.

B. Koch, R. Noé, V. Mirvoda, D. Sandel, O. Jan, and K. Puntsri, “20-Gb/s PDM-RZ-DPSK Transmission with 40 krad/s Endless Optical Polarization Tracking,” IEEE Photon. Technol. Lett. 25(9), 798–801 (2013).
[Crossref]

Johannisson, P.

M. Sjödin, E. Agrell, P. Johannisson, G.-W. Lu, P. A. Andrekson, and M. Karlsson, “Filter optimization for self-homodyne coherent WDM systems using interleaved polarization division,” J. Lightwave Technol. 29(9), 1219–1226 (2011).
[Crossref]

P. Johannisson, M. Sjödin, M. Karlsson, E. Tipsuwannakul, and P. Andrekson, “Cancellation of nonlinear phase distortion in self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(11), 802–804 (2010).
[Crossref]

M. Sjödin, P. Johannisson, M. Karlsson, Z. Tong, and P. A. Andrekson, “OSNR requirements for self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(2), 91–93 (2010).
[Crossref]

Kamio, Y.

Kanno, A.

R. S. Luis, B. J. Puttnam, J. M. D. Mendinueta, W. Klaus, J. Sakaguchi, Y. Awaji, T. Kawanishi, A. Kanno, and N. Wada, “OSNR Penalty of Self-Homodyne Coherent Detection in Spatial-Division-Multiplexing Systems,” IEEE Photon. Technol. Lett. 26(5), 477–479 (2014).
[Crossref]

J. Sakaguchi, B. J. Puttnam, W. Klaus, Y. Awaji, N. Wada, A. Kanno, T. Kawanishi, K. Imamura, H. Inaba, K. Mukasa, R. Sugizaki, T. Kobayashi, and M. Watanabe, “305 Tb/s space division multiplexed transmission using homogeneous 19-core fiber,” J. Lightwave Technol. 31(4), 554–562 (2013).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. 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]

J. M. Delgado Mendinueta, B. J. Puttnam, J. Sakaguchi, R. S. Luis, W. Klaus, Y. Awaji, A. Kanno, and T. Kawanishi, “Energy efficient carrier phase recovery for self-homodyne polarization-multiplexed QPSK,” in Proceedings of OptoElectronics and Communications conference, 2013, paper ThR3–5.

R. Luis, B. J. Puttnam, J.-M. Delgado Mendinueta, J. Sakaguchi, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “In-service method of path length alignment in SDM systems with self-homodyne detection,” in Proceedings of OptoElectronics and Communications Conference2013, paper ThR3.3.

Karlsson, M.

M. Sjödin, E. Agrell, P. Johannisson, G.-W. Lu, P. A. Andrekson, and M. Karlsson, “Filter optimization for self-homodyne coherent WDM systems using interleaved polarization division,” J. Lightwave Technol. 29(9), 1219–1226 (2011).
[Crossref]

M. Sjödin, P. Johannisson, M. Karlsson, Z. Tong, and P. A. Andrekson, “OSNR requirements for self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(2), 91–93 (2010).
[Crossref]

P. Johannisson, M. Sjödin, M. Karlsson, E. Tipsuwannakul, and P. Andrekson, “Cancellation of nonlinear phase distortion in self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(11), 802–804 (2010).
[Crossref]

Kawanishi, T.

R. S. Luis, B. J. Puttnam, J. M. D. Mendinueta, W. Klaus, J. Sakaguchi, Y. Awaji, T. Kawanishi, A. Kanno, and N. Wada, “OSNR Penalty of Self-Homodyne Coherent Detection in Spatial-Division-Multiplexing Systems,” IEEE Photon. Technol. Lett. 26(5), 477–479 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. 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]

J. Sakaguchi, B. J. Puttnam, W. Klaus, Y. Awaji, N. Wada, A. Kanno, T. Kawanishi, K. Imamura, H. Inaba, K. Mukasa, R. Sugizaki, T. Kobayashi, and M. Watanabe, “305 Tb/s space division multiplexed transmission using homogeneous 19-core fiber,” J. Lightwave Technol. 31(4), 554–562 (2013).
[Crossref]

J. M. Delgado Mendinueta, B. J. Puttnam, J. Sakaguchi, R. S. Luis, W. Klaus, Y. Awaji, A. Kanno, and T. Kawanishi, “Energy efficient carrier phase recovery for self-homodyne polarization-multiplexed QPSK,” in Proceedings of OptoElectronics and Communications conference, 2013, paper ThR3–5.

R. Luis, B. J. Puttnam, J.-M. Delgado Mendinueta, J. Sakaguchi, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “In-service method of path length alignment in SDM systems with self-homodyne detection,” in Proceedings of OptoElectronics and Communications Conference2013, paper ThR3.3.

Klaus, W.

R. S. Luis, B. J. Puttnam, J. M. D. Mendinueta, W. Klaus, J. Sakaguchi, Y. Awaji, T. Kawanishi, A. Kanno, and N. Wada, “OSNR Penalty of Self-Homodyne Coherent Detection in Spatial-Division-Multiplexing Systems,” IEEE Photon. Technol. Lett. 26(5), 477–479 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. 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]

J. Sakaguchi, B. J. Puttnam, W. Klaus, Y. Awaji, N. Wada, A. Kanno, T. Kawanishi, K. Imamura, H. Inaba, K. Mukasa, R. Sugizaki, T. Kobayashi, and M. Watanabe, “305 Tb/s space division multiplexed transmission using homogeneous 19-core fiber,” J. Lightwave Technol. 31(4), 554–562 (2013).
[Crossref]

J. M. Delgado Mendinueta, B. J. Puttnam, J. Sakaguchi, R. S. Luis, W. Klaus, Y. Awaji, A. Kanno, and T. Kawanishi, “Energy efficient carrier phase recovery for self-homodyne polarization-multiplexed QPSK,” in Proceedings of OptoElectronics and Communications conference, 2013, paper ThR3–5.

R. Luis, B. J. Puttnam, J.-M. Delgado Mendinueta, J. Sakaguchi, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “In-service method of path length alignment in SDM systems with self-homodyne detection,” in Proceedings of OptoElectronics and Communications Conference2013, paper ThR3.3.

Kobayashi, T.

Koch, B.

B. Koch, R. Noé, V. Mirvoda, D. Sandel, O. Jan, and K. Puntsri, “20-Gb/s PDM-RZ-DPSK Transmission with 40 krad/s Endless Optical Polarization Tracking,” IEEE Photon. Technol. Lett. 25(9), 798–801 (2013).
[Crossref]

Kubota, F.

T. Miyazaki and F. Kubota, “PSK self-homodyne detection using a pilot carrier for multibit/symbol transmission with inverse-RZ signal,” IEEE Photon. Technol. Lett. 17(6), 1334–1336 (2005).
[Crossref]

Lee, Y.

Y. Lee, K. Tanaka, K. Hiruma, E. Nomoto, T. Sugawara, and H. Arimoto, “Experimental Demonstration of a Highly Reliable Multicore-Fiber-Based Optical Network,” IEEE Photon. Technol. Lett. 26(6), 538–540 (2014).
[Crossref]

Liu, D.

Z. Qu, S. Fu, M. Zhang, M. Tang, P. Shum, and D. Liu, “Analytical Investigation on Self-Homodyne Coherent System Based on Few-Mode Fiber,” IEEE Photon. Technol. Lett. 26(1), 74–77 (2014).
[Crossref]

Liu, X.

Lu, G.-W.

Luis, R.

R. Luis, B. J. Puttnam, J.-M. Delgado Mendinueta, J. Sakaguchi, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “In-service method of path length alignment in SDM systems with self-homodyne detection,” in Proceedings of OptoElectronics and Communications Conference2013, paper ThR3.3.

Luis, R. S.

R. S. Luis, B. J. Puttnam, J. M. D. Mendinueta, W. Klaus, J. Sakaguchi, Y. Awaji, T. Kawanishi, A. Kanno, and N. Wada, “OSNR Penalty of Self-Homodyne Coherent Detection in Spatial-Division-Multiplexing Systems,” IEEE Photon. Technol. Lett. 26(5), 477–479 (2014).
[Crossref]

J. M. Delgado Mendinueta, B. J. Puttnam, J. Sakaguchi, R. S. Luis, W. Klaus, Y. Awaji, A. Kanno, and T. Kawanishi, “Energy efficient carrier phase recovery for self-homodyne polarization-multiplexed QPSK,” in Proceedings of OptoElectronics and Communications conference, 2013, paper ThR3–5.

Mendinueta, J. M.

Mendinueta, J. M. D.

R. S. Luis, B. J. Puttnam, J. M. D. Mendinueta, W. Klaus, J. Sakaguchi, Y. Awaji, T. Kawanishi, A. Kanno, and N. Wada, “OSNR Penalty of Self-Homodyne Coherent Detection in Spatial-Division-Multiplexing Systems,” IEEE Photon. Technol. Lett. 26(5), 477–479 (2014).
[Crossref]

Mirvoda, V.

B. Koch, R. Noé, V. Mirvoda, D. Sandel, O. Jan, and K. Puntsri, “20-Gb/s PDM-RZ-DPSK Transmission with 40 krad/s Endless Optical Polarization Tracking,” IEEE Photon. Technol. Lett. 25(9), 798–801 (2013).
[Crossref]

Miyazaki, T.

G.-W. Lu, M. Nakamura, Y. Kamio, and T. Miyazaki, “40-Gb/s QPSK and 20-Gb/s PSK with inserted pilot symbols using self-homodyne detection,” Opt. Express 15(12), 7660–7666 (2007).
[Crossref] [PubMed]

T. Miyazaki, “Linewidth-Tolerant QPSK Homodyne Transmission Using a Polarization-Multiplexed Pilot Carrier,” IEEE Photon. Technol. Lett. 18(2), 388–390 (2006).
[Crossref]

T. Miyazaki and F. Kubota, “PSK self-homodyne detection using a pilot carrier for multibit/symbol transmission with inverse-RZ signal,” IEEE Photon. Technol. Lett. 17(6), 1334–1336 (2005).
[Crossref]

Monberg, E. M.

Mukasa, K.

Nakamura, M.

Noé, R.

B. Koch, R. Noé, V. Mirvoda, D. Sandel, O. Jan, and K. Puntsri, “20-Gb/s PDM-RZ-DPSK Transmission with 40 krad/s Endless Optical Polarization Tracking,” IEEE Photon. Technol. Lett. 25(9), 798–801 (2013).
[Crossref]

Nomoto, E.

Y. Lee, K. Tanaka, K. Hiruma, E. Nomoto, T. Sugawara, and H. Arimoto, “Experimental Demonstration of a Highly Reliable Multicore-Fiber-Based Optical Network,” IEEE Photon. Technol. Lett. 26(6), 538–540 (2014).
[Crossref]

Puntsri, K.

B. Koch, R. Noé, V. Mirvoda, D. Sandel, O. Jan, and K. Puntsri, “20-Gb/s PDM-RZ-DPSK Transmission with 40 krad/s Endless Optical Polarization Tracking,” IEEE Photon. Technol. Lett. 25(9), 798–801 (2013).
[Crossref]

Puttnam, B. J.

R. S. Luis, B. J. Puttnam, J. M. D. Mendinueta, W. Klaus, J. Sakaguchi, Y. Awaji, T. Kawanishi, A. Kanno, and N. Wada, “OSNR Penalty of Self-Homodyne Coherent Detection in Spatial-Division-Multiplexing Systems,” IEEE Photon. Technol. Lett. 26(5), 477–479 (2014).
[Crossref]

J. Sakaguchi, B. J. Puttnam, W. Klaus, Y. Awaji, N. Wada, A. Kanno, T. Kawanishi, K. Imamura, H. Inaba, K. Mukasa, R. Sugizaki, T. Kobayashi, and M. Watanabe, “305 Tb/s space division multiplexed transmission using homogeneous 19-core fiber,” J. Lightwave Technol. 31(4), 554–562 (2013).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. 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. Luis, B. J. Puttnam, J.-M. Delgado Mendinueta, J. Sakaguchi, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “In-service method of path length alignment in SDM systems with self-homodyne detection,” in Proceedings of OptoElectronics and Communications Conference2013, paper ThR3.3.

J. M. Delgado Mendinueta, B. J. Puttnam, J. Sakaguchi, R. S. Luis, W. Klaus, Y. Awaji, A. Kanno, and T. Kawanishi, “Energy efficient carrier phase recovery for self-homodyne polarization-multiplexed QPSK,” in Proceedings of OptoElectronics and Communications conference, 2013, paper ThR3–5.

Qu, Z.

Z. Qu, S. Fu, M. Zhang, M. Tang, P. Shum, and D. Liu, “Analytical Investigation on Self-Homodyne Coherent System Based on Few-Mode Fiber,” IEEE Photon. Technol. Lett. 26(1), 74–77 (2014).
[Crossref]

Sakaguchi, J.

R. S. Luis, B. J. Puttnam, J. M. D. Mendinueta, W. Klaus, J. Sakaguchi, Y. Awaji, T. Kawanishi, A. Kanno, and N. Wada, “OSNR Penalty of Self-Homodyne Coherent Detection in Spatial-Division-Multiplexing Systems,” IEEE Photon. Technol. Lett. 26(5), 477–479 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. 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]

J. Sakaguchi, B. J. Puttnam, W. Klaus, Y. Awaji, N. Wada, A. Kanno, T. Kawanishi, K. Imamura, H. Inaba, K. Mukasa, R. Sugizaki, T. Kobayashi, and M. Watanabe, “305 Tb/s space division multiplexed transmission using homogeneous 19-core fiber,” J. Lightwave Technol. 31(4), 554–562 (2013).
[Crossref]

J. M. Delgado Mendinueta, B. J. Puttnam, J. Sakaguchi, R. S. Luis, W. Klaus, Y. Awaji, A. Kanno, and T. Kawanishi, “Energy efficient carrier phase recovery for self-homodyne polarization-multiplexed QPSK,” in Proceedings of OptoElectronics and Communications conference, 2013, paper ThR3–5.

R. Luis, B. J. Puttnam, J.-M. Delgado Mendinueta, J. Sakaguchi, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “In-service method of path length alignment in SDM systems with self-homodyne detection,” in Proceedings of OptoElectronics and Communications Conference2013, paper ThR3.3.

Sandel, D.

B. Koch, R. Noé, V. Mirvoda, D. Sandel, O. Jan, and K. Puntsri, “20-Gb/s PDM-RZ-DPSK Transmission with 40 krad/s Endless Optical Polarization Tracking,” IEEE Photon. Technol. Lett. 25(9), 798–801 (2013).
[Crossref]

Shum, P.

Z. Qu, S. Fu, M. Zhang, M. Tang, P. Shum, and D. Liu, “Analytical Investigation on Self-Homodyne Coherent System Based on Few-Mode Fiber,” IEEE Photon. Technol. Lett. 26(1), 74–77 (2014).
[Crossref]

Sjödin, M.

M. Sjödin, E. Agrell, P. Johannisson, G.-W. Lu, P. A. Andrekson, and M. Karlsson, “Filter optimization for self-homodyne coherent WDM systems using interleaved polarization division,” J. Lightwave Technol. 29(9), 1219–1226 (2011).
[Crossref]

P. Johannisson, M. Sjödin, M. Karlsson, E. Tipsuwannakul, and P. Andrekson, “Cancellation of nonlinear phase distortion in self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(11), 802–804 (2010).
[Crossref]

M. Sjödin, P. Johannisson, M. Karlsson, Z. Tong, and P. A. Andrekson, “OSNR requirements for self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(2), 91–93 (2010).
[Crossref]

Sugawara, T.

Y. Lee, K. Tanaka, K. Hiruma, E. Nomoto, T. Sugawara, and H. Arimoto, “Experimental Demonstration of a Highly Reliable Multicore-Fiber-Based Optical Network,” IEEE Photon. Technol. Lett. 26(6), 538–540 (2014).
[Crossref]

Sugizaki, R.

Tanaka, K.

Y. Lee, K. Tanaka, K. Hiruma, E. Nomoto, T. Sugawara, and H. Arimoto, “Experimental Demonstration of a Highly Reliable Multicore-Fiber-Based Optical Network,” IEEE Photon. Technol. Lett. 26(6), 538–540 (2014).
[Crossref]

Tang, M.

Z. Qu, S. Fu, M. Zhang, M. Tang, P. Shum, and D. Liu, “Analytical Investigation on Self-Homodyne Coherent System Based on Few-Mode Fiber,” IEEE Photon. Technol. Lett. 26(1), 74–77 (2014).
[Crossref]

Taunay, T. F.

Tipsuwannakul, E.

P. Johannisson, M. Sjödin, M. Karlsson, E. Tipsuwannakul, and P. Andrekson, “Cancellation of nonlinear phase distortion in self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(11), 802–804 (2010).
[Crossref]

Tong, Z.

M. Sjödin, P. Johannisson, M. Karlsson, Z. Tong, and P. A. Andrekson, “OSNR requirements for self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(2), 91–93 (2010).
[Crossref]

Wada, N.

R. S. Luis, B. J. Puttnam, J. M. D. Mendinueta, W. Klaus, J. Sakaguchi, Y. Awaji, T. Kawanishi, A. Kanno, and N. Wada, “OSNR Penalty of Self-Homodyne Coherent Detection in Spatial-Division-Multiplexing Systems,” IEEE Photon. Technol. Lett. 26(5), 477–479 (2014).
[Crossref]

B. J. Puttnam, J. Sakaguchi, J. M. 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]

J. Sakaguchi, B. J. Puttnam, W. Klaus, Y. Awaji, N. Wada, A. Kanno, T. Kawanishi, K. Imamura, H. Inaba, K. Mukasa, R. Sugizaki, T. Kobayashi, and M. Watanabe, “305 Tb/s space division multiplexed transmission using homogeneous 19-core fiber,” J. Lightwave Technol. 31(4), 554–562 (2013).
[Crossref]

R. Luis, B. J. Puttnam, J.-M. Delgado Mendinueta, J. Sakaguchi, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “In-service method of path length alignment in SDM systems with self-homodyne detection,” in Proceedings of OptoElectronics and Communications Conference2013, paper ThR3.3.

Watanabe, M.

Yan, M. F.

Zhang, M.

Z. Qu, S. Fu, M. Zhang, M. Tang, P. Shum, and D. Liu, “Analytical Investigation on Self-Homodyne Coherent System Based on Few-Mode Fiber,” IEEE Photon. Technol. Lett. 26(1), 74–77 (2014).
[Crossref]

Zhu, B.

IEEE Photon. Technol. Lett. (8)

Y. Lee, K. Tanaka, K. Hiruma, E. Nomoto, T. Sugawara, and H. Arimoto, “Experimental Demonstration of a Highly Reliable Multicore-Fiber-Based Optical Network,” IEEE Photon. Technol. Lett. 26(6), 538–540 (2014).
[Crossref]

T. Miyazaki and F. Kubota, “PSK self-homodyne detection using a pilot carrier for multibit/symbol transmission with inverse-RZ signal,” IEEE Photon. Technol. Lett. 17(6), 1334–1336 (2005).
[Crossref]

T. Miyazaki, “Linewidth-Tolerant QPSK Homodyne Transmission Using a Polarization-Multiplexed Pilot Carrier,” IEEE Photon. Technol. Lett. 18(2), 388–390 (2006).
[Crossref]

M. Sjödin, P. Johannisson, M. Karlsson, Z. Tong, and P. A. Andrekson, “OSNR requirements for self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(2), 91–93 (2010).
[Crossref]

P. Johannisson, M. Sjödin, M. Karlsson, E. Tipsuwannakul, and P. Andrekson, “Cancellation of nonlinear phase distortion in self-homodyne coherent systems,” IEEE Photon. Technol. Lett. 22(11), 802–804 (2010).
[Crossref]

R. S. Luis, B. J. Puttnam, J. M. D. Mendinueta, W. Klaus, J. Sakaguchi, Y. Awaji, T. Kawanishi, A. Kanno, and N. Wada, “OSNR Penalty of Self-Homodyne Coherent Detection in Spatial-Division-Multiplexing Systems,” IEEE Photon. Technol. Lett. 26(5), 477–479 (2014).
[Crossref]

Z. Qu, S. Fu, M. Zhang, M. Tang, P. Shum, and D. Liu, “Analytical Investigation on Self-Homodyne Coherent System Based on Few-Mode Fiber,” IEEE Photon. Technol. Lett. 26(1), 74–77 (2014).
[Crossref]

B. Koch, R. Noé, V. Mirvoda, D. Sandel, O. Jan, and K. Puntsri, “20-Gb/s PDM-RZ-DPSK Transmission with 40 krad/s Endless Optical Polarization Tracking,” IEEE Photon. Technol. Lett. 25(9), 798–801 (2013).
[Crossref]

J. Lightwave Technol. (2)

Opt. Express (3)

Other (11)

H. Takahashi, K. Igarashi, and T. Tsuritani, “Long-haul transmission using multicore fibers,” In Optical Fiber Communication Conference, (Optical Society of America, technical digest 2014), paper Tu2J.
[Crossref]

B. J. Puttnam, J.-M. Delgado Mendinueta, J. Sakaguchi, R. Luis, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “105Tb/s Transmission System Using Low-cost, MHz Linewidth DFB Lasers Enabled by Self-Homodyne Coherent Detection and a 19-Core Fiber,” In Optical Fiber Communication Conference, (Optical Society of America, technical digest 2013), paper OW1I.1.
[Crossref]

B. J. Puttnam, J.-M. D. Mendinueta, J. Sakaguchi, R. S. Luis, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, 210Tb/s, “Self-Homodyne PDM-WDM-SDM Transmission with DFB lasers in a 19-Core Fiber,” in Proceedings of IEEE Photonics Society Summer Topicals meeting 2013, Paper TuC1.2.
[Crossref]

R. Luis, B. J. Puttnam, J.-M. Delgado Mendinueta, J. Sakaguchi, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “In-service method of path length alignment in SDM systems with self-homodyne detection,” in Proceedings of OptoElectronics and Communications Conference2013, paper ThR3.3.

B. J. Puttnam, J. Sakaguchi, W. Klaus, Y. Awaji, J.-M. Delgado Mendinueta, N. Wada, A. Kanno, and T. Kawanishi, “Investigating self-homodyne coherent detection in a 19-core spatial-division-multiplexed transmission link,” in Procedings of the European Conference on Optical Communications (ECOC) 2012, paper Tu.3.C.3.
[Crossref]

E. Le Taillandier de Gabory, M. Arikawa, Y. Hashimoto, T. Ito, and K. Fukuchi, “A shared carrier reception and processing scheme for compensating frequency offset and phase noise of space-division multiplexed signals over multicore fibers,” In Optical Fiber Communication Conference, (Optical Society of America, technical digest 2013), paper OM2C.2.
[Crossref]

J. M. Delgado Mendinueta, B. J. Puttnam, J. Sakaguchi, R. S. Luís, W. Klaus, Y. Awaji, N. Wada, A. Kanno, and T. Kawanishi, “Investigation of Receiver DSP Carrier Phase Estimation Rate for Self-homodyne Space-division Multiplexing Communication Systems,” In Optical Fiber Communication Conference, (Optical Society of America, technical digest 2013), paper JTh2A.48.
[Crossref]

J. M. Delgado Mendinueta, B. J. Puttnam, J. Sakaguchi, R. S. Luis, W. Klaus, Y. Awaji, A. Kanno, and T. Kawanishi, “Energy efficient carrier phase recovery for self-homodyne polarization-multiplexed QPSK,” in Proceedings of OptoElectronics and Communications conference, 2013, paper ThR3–5.

M. Nakamura, Y. Kamio, G.-W. Lu, and T. Miyazaki, “Ultimate linewidth-tolerant 20-Gbps QPSK-homodyne transmission using a spectrum-sliced ASE light source,” In Optical Fiber Communication Conference, (Optical Society of America, technical digest 2007), paper OThD4.
[Crossref]

Y. Kamio, M. Nakamura, and T. Miyazaki, “80-Gb/s 256-QAM signals using phase noise and DGD-tolerant pilot-carrier-aided homodyne detection,” in Proceedings of the European Conference and Exhibition on Optical Communications (ECOC) 2007, paper P089.
[Crossref]

W. Klaus, J. Sakaguchi, B. J. Puttnam, Y. Awaji, N. Wada, T. Kobayashi, and M. Watanabe, “Free-space coupling optics for multi-core fibers,” in Proceedings of IEEE Photonics Society Summer Topicals meeting 2012, paper WC3.3.

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Figures (4)

Fig. 1
Fig. 1 Experimental set-up for SDM-WDM-PDM self-homodyne transmission in a 19-core fiber.
Fig. 2
Fig. 2 Measured BER as a function of OSNR (0.1nm resolution) for DFB and ECTL transmitters for (a) QPSK, 16QAM and (b) PDM-QPSK, PDM-16QAM.
Fig. 3
Fig. 3 Measured BERs for 125 wavelength channels in each of 18 signal cores and (inset) MCF core layout.
Fig. 4
Fig. 4 Measured BER in each signal core for 5 wavelength channels for PDM-QPSK transmission in an MCF.

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