Abstract

We investigate high fidelity channel replication approaching the idealized notion of channel cloning with negligible excess noise and distortion. Previously proposed cloning architectures require that the channel carriers to be externally seeded, limiting their ultimate usefulness, whereas the self-seeded approach limits the channel number and signal-to-noise ratio. Specifically, when a single channel is replicated, the noise figure (NF) remains above the well-known 3-dB limit, and multi-channel replication by a dual-pump driven parametric mixer faces a theoretical NF limit of 6-dB. On the other hand, large-channel-count cloning is of particular importance as it allows for rate scaling in generalized signal processing. Recognizing the limits of conventional architectures that rest on homogeneous parametric mixers, we here propose multi-stage, dispersion-managed parametric mixers in multi-mode phase-sensitive architecture to clone the input signal to a substantial number of channels. In particular, when the new mixer is operated in four-mode phase-sensitive architecture, a 17-copy-count channel cloning with maximum NF less than 6-dB and a record-low NF of 2-dB was experimentally implemented and demonstrated in this paper.

© 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

Full Article  |  PDF Article
OSA Recommended Articles
Digital multi-channel stabilization of four-mode phase-sensitive parametric multicasting

Lan Liu, Zhi Tong, Andreas O. J. Wiberg, Bill P. P. Kuo, Evgeny Myslivets, Nikola Alic, and Stojan Radic
Opt. Express 22(15) 18379-18388 (2014)

All optical wavelength multicaster and regenerator based on four-mode phase-sensitive parametric mixer

Lan Liu, Eduardo Temprana, Vahid Ataie, Andreas O. J. Wiberg, Bill P.-P. Kuo, Evgeny Myslivets, Nikola Alic, and Stojan Radic
Opt. Express 23(24) 30956-30969 (2015)

Broadband parametric multicasting via four-mode phase-sensitive interaction

Zhi Tong, Andreas O. J. Wiberg, Evgeny Myslivets, Bill P. P. Kuo, Nikola Alic, and Stojan Radic
Opt. Express 20(17) 19363-19373 (2012)

References

  • View by:
  • |
  • |
  • |

  1. S. Radic, “Parametric signal processing,” IEEE J. Sel. Top. Quantum Electron. 18(2), 670–680 (2012).
    [Crossref]
  2. C. A. Brackett, “Dense wavelength division multiplexing networks: principle and applications,” IEEE J. Sel. Areas Comm. 8(6), 948–964 (1990).
    [Crossref]
  3. J. M. H. Elmirghani and H. T. Mouftah, “All-optical wavelength conversion: technologies and applications in DWDM networks,” IEEE Commun. Mag. 38(3), 86–92 (2000).
    [Crossref]
  4. R. Malli, X. Zhang, and C. Qiao, “Benefits of multicasting in all-optical networks,” Proc. SPIE 3531, 209–220 (1998).
    [Crossref]
  5. B. Ramamurthy and B. Mukherjee, “Wavelength conversion in WDM networking,” IEEE J. Sel. Areas Comm. 16(7), 1061–1073 (1998).
    [Crossref]
  6. T. Durhuus, B. Mikkelsen, C. Joergensen, S. L. Danielsen, and K. E. Stubkjaer, “All-optical wavelength conversion by semiconductor optical amplifiers,” J. Lightwave Technol. 14(6), 942–954 (1996).
    [Crossref]
  7. M. Fujiwara, N. Shimosaka, M. Nishio, S. Suzuki, S. Yamazaki, S. Murata, and K. Kaede, “A coherent photonic wavelength-division switching system for broadband networks,” in Proc. ECOC1988 (1988), 139–142.
  8. L. H. Sahasrabuddhe and B. Mukherjee, “Light-trees: optical multicasting for improved performance in wavelength-routed networks,” IEEE Commun. Mag. 37(2), 67–73 (1999).
    [Crossref]
  9. G. Contestabile, M. Presi, and E. Ciaramella, “Multiple wavelength conversion for WDM multicasting by FWM in an SOA,” IEEE Photonics Technol. Lett. 16(7), 1775–1777 (2004).
    [Crossref]
  10. H. S. Chung, R. Inohara, K. Nishimura, and M. Usami, “All-optical multi-wavelength conversion of 10 Gbit/s NRZ/RZ signals based on SOA-MZI for WDM multicasting,” Electron. Lett. 41(7), 432–433 (2005).
    [Crossref]
  11. F. Girardin, G. Guekos, and A. Houbavlis, “Gain recovery of bulk semiconductor optical amplifiers,” IEEE Photonics Technol. Lett. 10(6), 784–786 (1998).
    [Crossref]
  12. J. Hansryd, P. A. Andrekson, M. Westlund, J. Li, and P. O. Hedekvist, “Fiber-based optical parametric amplifiers and their applications,” IEEE J. Sel. Top. Quantum Electron. 8(3), 506–520 (2002).
    [Crossref]
  13. C. S. Bres, N. Alic, E. Myslivets, and S. Radic, “Scalable multicasting in one-pump parametric amplifier,” J. Lightwave Technol. 27(3), 356–363 (2009).
    [Crossref]
  14. R. Tang, P. L. Voss, J. Lasri, P. Devgan, and P. Kumar, “Noise-figure limit of fiber-optical parametric amplifiers and wavelength converters: experimental investigation,” Opt. Lett. 29(20), 2372–2374 (2004).
    [Crossref] [PubMed]
  15. B. P. P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Wavelength multicasting via frequency comb generation in a bandwidth-enhanced fiber optical parametric xixer,” J. Lightwave Technol. 29(23), 3515–3522 (2011).
    [Crossref]
  16. E. Myslivets, B. P. P. Kuo, N. Alic, and S. Radic, “Generation of wideband frequency combs by continuous-wave seeding of multistage mixers with synthesized dispersion,” Opt. Express 20(3), 3331–3344 (2012).
    [Crossref] [PubMed]
  17. Z. Tong, A. O. Wiberg, E. Myslivets, B. P. P. Kuo, N. Alic, and S. Radic, “Broadband parametric multicasting via four-mode phase-sensitive interaction,” Opt. Express 20(17), 19363–19373 (2012).
    [Crossref] [PubMed]
  18. A. O. J. Wiberg, Z. Tong, L. Liu, J. L. Ponsetto, V. Ataie, E. Myslivets, N. Alic, and S. Radic, “Demonstration of 40 GHz analog-to-digital conversion using copy-and-sample-all parametric processing,” in Proc. OFC/NFOEC 2012, paper OW3C.2 (2012).
  19. A. O. J. Wiberg, D. J. Esman, L. Liu, J. R. Adleman, S. Zlatanovic, V. Ataie, E. Myslivets, B. P.-P. Kuo, N. Alic, E. W. Jacobs, and S. Radic, “Coherent filterless wideband microwave/millimeter-wave channelizer based on Broadband Parametric Mixers,” J. Lightwave Technol. 32(20), 3609–3617 (2014).
    [Crossref]
  20. Z. Tong, A. O. J. Wiberg, E. Myslivets, C. K. Huynh, B. P. P. Kuo, N. Alic, and S. Radic, “Noise performance of phase-insensitive frequency multicasting in parametric mixer with finite dispersion,” Opt. Express 21(15), 17659–17669 (2013).
    [Crossref] [PubMed]
  21. Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
    [Crossref]
  22. R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
    [Crossref]
  23. C. McKinstrie, S. Radic, and M. Raymer, “Quantum noise properties of parametric amplifiers driven by two pump waves,” Opt. Express 12(21), 5037–5066 (2004).
    [Crossref] [PubMed]
  24. L. Liu, A. O. J. Wiberg, B. P.-P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Comparison of PS one- and three-mode wavelength multicasting,” J. Lightwave Technol. 34(10), 2491–2499 (2016).
    [Crossref]
  25. Z. Tong and S. Radic, “Low-noise optical amplification and signal processing in parametric devices,” Adv. Opt. Photonics 5(3), 318–384 (2013).
    [Crossref]
  26. T. Richter, B. Corcoran, S. L. Olsson, C. Lundstrom, M. Karlsson, C. Schubert, and P. Andrekson, “Experimental characterization of a phase-sensitive four-mode fiber-optic parametric amplifier,” in ECOC (2012), paper Th.1.F.1.
  27. A. A. C. Albuquerque, B. J. Puttnam, J. M. D. Mendinueta, M. V. Drummond, S. Shinada, R. N. Nogueira, and N. Wada, “Experimental investigation of phase-sensitive amplification of data signals in a four-mode fiber-based PSA,” Opt. Lett. 40(2), 288–291 (2015).
    [Crossref] [PubMed]
  28. E. Myslivets, C. Lundstrom, J. M. Aparicio, S. Moro, A. O. J. Wiberg, C. S. Bres, N. Alic, P. A. Andrekson, and S. Radic, “Spatial equalization of zero-dispersion wavelength profiles in nonlinear fibers,” IEEE Photonics Technol. Lett. 21(24), 1807–1809 (2009).
    [Crossref]
  29. L. Liu, Z. Tong, A. O. J. Wiberg, B. P. P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Digital multi-channel stabilization of four-mode phase-sensitive parametric multicasting,” Opt. Express 22(15), 18379–18388 (2014).
    [Crossref] [PubMed]
  30. G. Obarski, “Precise calibration for optical amplifier noise figure measurement using the RIN subtraction method,” in Proc. OFC2003, 601–603 (2003).
  31. M. Movassaghi, M. K. Jackson, V. M. Smith, and W. J. Hallam, “Noise figure of erbium-doped fiber amplifiers in saturated operation,” J. Lightwave Technol. 16(5), 812–817 (1998).
    [Crossref]
  32. Z. Tong, L. Liu, A. O. J. Wiberg, V. Ataie, E. Myslivets, B. Kuo, N. Alic, and S. Radic, “First demonstration of four-mode phase-sensitive multicasting of optical channel,” in CLEO 2013 (2013), paper CTh5D.6.

2016 (1)

2015 (1)

2014 (2)

2013 (2)

2012 (3)

2011 (2)

B. P. P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Wavelength multicasting via frequency comb generation in a bandwidth-enhanced fiber optical parametric xixer,” J. Lightwave Technol. 29(23), 3515–3522 (2011).
[Crossref]

Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
[Crossref]

2010 (1)

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

2009 (2)

E. Myslivets, C. Lundstrom, J. M. Aparicio, S. Moro, A. O. J. Wiberg, C. S. Bres, N. Alic, P. A. Andrekson, and S. Radic, “Spatial equalization of zero-dispersion wavelength profiles in nonlinear fibers,” IEEE Photonics Technol. Lett. 21(24), 1807–1809 (2009).
[Crossref]

C. S. Bres, N. Alic, E. Myslivets, and S. Radic, “Scalable multicasting in one-pump parametric amplifier,” J. Lightwave Technol. 27(3), 356–363 (2009).
[Crossref]

2005 (1)

H. S. Chung, R. Inohara, K. Nishimura, and M. Usami, “All-optical multi-wavelength conversion of 10 Gbit/s NRZ/RZ signals based on SOA-MZI for WDM multicasting,” Electron. Lett. 41(7), 432–433 (2005).
[Crossref]

2004 (3)

2002 (1)

J. Hansryd, P. A. Andrekson, M. Westlund, J. Li, and P. O. Hedekvist, “Fiber-based optical parametric amplifiers and their applications,” IEEE J. Sel. Top. Quantum Electron. 8(3), 506–520 (2002).
[Crossref]

2000 (1)

J. M. H. Elmirghani and H. T. Mouftah, “All-optical wavelength conversion: technologies and applications in DWDM networks,” IEEE Commun. Mag. 38(3), 86–92 (2000).
[Crossref]

1999 (1)

L. H. Sahasrabuddhe and B. Mukherjee, “Light-trees: optical multicasting for improved performance in wavelength-routed networks,” IEEE Commun. Mag. 37(2), 67–73 (1999).
[Crossref]

1998 (4)

R. Malli, X. Zhang, and C. Qiao, “Benefits of multicasting in all-optical networks,” Proc. SPIE 3531, 209–220 (1998).
[Crossref]

B. Ramamurthy and B. Mukherjee, “Wavelength conversion in WDM networking,” IEEE J. Sel. Areas Comm. 16(7), 1061–1073 (1998).
[Crossref]

F. Girardin, G. Guekos, and A. Houbavlis, “Gain recovery of bulk semiconductor optical amplifiers,” IEEE Photonics Technol. Lett. 10(6), 784–786 (1998).
[Crossref]

M. Movassaghi, M. K. Jackson, V. M. Smith, and W. J. Hallam, “Noise figure of erbium-doped fiber amplifiers in saturated operation,” J. Lightwave Technol. 16(5), 812–817 (1998).
[Crossref]

1996 (1)

T. Durhuus, B. Mikkelsen, C. Joergensen, S. L. Danielsen, and K. E. Stubkjaer, “All-optical wavelength conversion by semiconductor optical amplifiers,” J. Lightwave Technol. 14(6), 942–954 (1996).
[Crossref]

1990 (1)

C. A. Brackett, “Dense wavelength division multiplexing networks: principle and applications,” IEEE J. Sel. Areas Comm. 8(6), 948–964 (1990).
[Crossref]

Adleman, J. R.

Albuquerque, A. A. C.

Alic, N.

L. Liu, A. O. J. Wiberg, B. P.-P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Comparison of PS one- and three-mode wavelength multicasting,” J. Lightwave Technol. 34(10), 2491–2499 (2016).
[Crossref]

A. O. J. Wiberg, D. J. Esman, L. Liu, J. R. Adleman, S. Zlatanovic, V. Ataie, E. Myslivets, B. P.-P. Kuo, N. Alic, E. W. Jacobs, and S. Radic, “Coherent filterless wideband microwave/millimeter-wave channelizer based on Broadband Parametric Mixers,” J. Lightwave Technol. 32(20), 3609–3617 (2014).
[Crossref]

L. Liu, Z. Tong, A. O. J. Wiberg, B. P. P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Digital multi-channel stabilization of four-mode phase-sensitive parametric multicasting,” Opt. Express 22(15), 18379–18388 (2014).
[Crossref] [PubMed]

Z. Tong, A. O. J. Wiberg, E. Myslivets, C. K. Huynh, B. P. P. Kuo, N. Alic, and S. Radic, “Noise performance of phase-insensitive frequency multicasting in parametric mixer with finite dispersion,” Opt. Express 21(15), 17659–17669 (2013).
[Crossref] [PubMed]

E. Myslivets, B. P. P. Kuo, N. Alic, and S. Radic, “Generation of wideband frequency combs by continuous-wave seeding of multistage mixers with synthesized dispersion,” Opt. Express 20(3), 3331–3344 (2012).
[Crossref] [PubMed]

Z. Tong, A. O. Wiberg, E. Myslivets, B. P. P. Kuo, N. Alic, and S. Radic, “Broadband parametric multicasting via four-mode phase-sensitive interaction,” Opt. Express 20(17), 19363–19373 (2012).
[Crossref] [PubMed]

B. P. P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Wavelength multicasting via frequency comb generation in a bandwidth-enhanced fiber optical parametric xixer,” J. Lightwave Technol. 29(23), 3515–3522 (2011).
[Crossref]

C. S. Bres, N. Alic, E. Myslivets, and S. Radic, “Scalable multicasting in one-pump parametric amplifier,” J. Lightwave Technol. 27(3), 356–363 (2009).
[Crossref]

E. Myslivets, C. Lundstrom, J. M. Aparicio, S. Moro, A. O. J. Wiberg, C. S. Bres, N. Alic, P. A. Andrekson, and S. Radic, “Spatial equalization of zero-dispersion wavelength profiles in nonlinear fibers,” IEEE Photonics Technol. Lett. 21(24), 1807–1809 (2009).
[Crossref]

Z. Tong, L. Liu, A. O. J. Wiberg, V. Ataie, E. Myslivets, B. Kuo, N. Alic, and S. Radic, “First demonstration of four-mode phase-sensitive multicasting of optical channel,” in CLEO 2013 (2013), paper CTh5D.6.

A. O. J. Wiberg, Z. Tong, L. Liu, J. L. Ponsetto, V. Ataie, E. Myslivets, N. Alic, and S. Radic, “Demonstration of 40 GHz analog-to-digital conversion using copy-and-sample-all parametric processing,” in Proc. OFC/NFOEC 2012, paper OW3C.2 (2012).

Andrekson, P.

T. Richter, B. Corcoran, S. L. Olsson, C. Lundstrom, M. Karlsson, C. Schubert, and P. Andrekson, “Experimental characterization of a phase-sensitive four-mode fiber-optic parametric amplifier,” in ECOC (2012), paper Th.1.F.1.

Andrekson, P. A.

Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
[Crossref]

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

E. Myslivets, C. Lundstrom, J. M. Aparicio, S. Moro, A. O. J. Wiberg, C. S. Bres, N. Alic, P. A. Andrekson, and S. Radic, “Spatial equalization of zero-dispersion wavelength profiles in nonlinear fibers,” IEEE Photonics Technol. Lett. 21(24), 1807–1809 (2009).
[Crossref]

J. Hansryd, P. A. Andrekson, M. Westlund, J. Li, and P. O. Hedekvist, “Fiber-based optical parametric amplifiers and their applications,” IEEE J. Sel. Top. Quantum Electron. 8(3), 506–520 (2002).
[Crossref]

Aparicio, J. M.

E. Myslivets, C. Lundstrom, J. M. Aparicio, S. Moro, A. O. J. Wiberg, C. S. Bres, N. Alic, P. A. Andrekson, and S. Radic, “Spatial equalization of zero-dispersion wavelength profiles in nonlinear fibers,” IEEE Photonics Technol. Lett. 21(24), 1807–1809 (2009).
[Crossref]

Ataie, V.

A. O. J. Wiberg, D. J. Esman, L. Liu, J. R. Adleman, S. Zlatanovic, V. Ataie, E. Myslivets, B. P.-P. Kuo, N. Alic, E. W. Jacobs, and S. Radic, “Coherent filterless wideband microwave/millimeter-wave channelizer based on Broadband Parametric Mixers,” J. Lightwave Technol. 32(20), 3609–3617 (2014).
[Crossref]

Z. Tong, L. Liu, A. O. J. Wiberg, V. Ataie, E. Myslivets, B. Kuo, N. Alic, and S. Radic, “First demonstration of four-mode phase-sensitive multicasting of optical channel,” in CLEO 2013 (2013), paper CTh5D.6.

A. O. J. Wiberg, Z. Tong, L. Liu, J. L. Ponsetto, V. Ataie, E. Myslivets, N. Alic, and S. Radic, “Demonstration of 40 GHz analog-to-digital conversion using copy-and-sample-all parametric processing,” in Proc. OFC/NFOEC 2012, paper OW3C.2 (2012).

Blessing, D. J.

Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
[Crossref]

Bogris, A.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Brackett, C. A.

C. A. Brackett, “Dense wavelength division multiplexing networks: principle and applications,” IEEE J. Sel. Areas Comm. 8(6), 948–964 (1990).
[Crossref]

Bres, C. S.

E. Myslivets, C. Lundstrom, J. M. Aparicio, S. Moro, A. O. J. Wiberg, C. S. Bres, N. Alic, P. A. Andrekson, and S. Radic, “Spatial equalization of zero-dispersion wavelength profiles in nonlinear fibers,” IEEE Photonics Technol. Lett. 21(24), 1807–1809 (2009).
[Crossref]

C. S. Bres, N. Alic, E. Myslivets, and S. Radic, “Scalable multicasting in one-pump parametric amplifier,” J. Lightwave Technol. 27(3), 356–363 (2009).
[Crossref]

Chung, H. S.

H. S. Chung, R. Inohara, K. Nishimura, and M. Usami, “All-optical multi-wavelength conversion of 10 Gbit/s NRZ/RZ signals based on SOA-MZI for WDM multicasting,” Electron. Lett. 41(7), 432–433 (2005).
[Crossref]

Ciaramella, E.

G. Contestabile, M. Presi, and E. Ciaramella, “Multiple wavelength conversion for WDM multicasting by FWM in an SOA,” IEEE Photonics Technol. Lett. 16(7), 1775–1777 (2004).
[Crossref]

Contestabile, G.

G. Contestabile, M. Presi, and E. Ciaramella, “Multiple wavelength conversion for WDM multicasting by FWM in an SOA,” IEEE Photonics Technol. Lett. 16(7), 1775–1777 (2004).
[Crossref]

Corcoran, B.

T. Richter, B. Corcoran, S. L. Olsson, C. Lundstrom, M. Karlsson, C. Schubert, and P. Andrekson, “Experimental characterization of a phase-sensitive four-mode fiber-optic parametric amplifier,” in ECOC (2012), paper Th.1.F.1.

Danielsen, S. L.

T. Durhuus, B. Mikkelsen, C. Joergensen, S. L. Danielsen, and K. E. Stubkjaer, “All-optical wavelength conversion by semiconductor optical amplifiers,” J. Lightwave Technol. 14(6), 942–954 (1996).
[Crossref]

Dasgupta, S.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Devgan, P.

Drummond, M. V.

Durhuus, T.

T. Durhuus, B. Mikkelsen, C. Joergensen, S. L. Danielsen, and K. E. Stubkjaer, “All-optical wavelength conversion by semiconductor optical amplifiers,” J. Lightwave Technol. 14(6), 942–954 (1996).
[Crossref]

Ellis, A. D.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Elmirghani, J. M. H.

J. M. H. Elmirghani and H. T. Mouftah, “All-optical wavelength conversion: technologies and applications in DWDM networks,” IEEE Commun. Mag. 38(3), 86–92 (2000).
[Crossref]

Esman, D. J.

Fujiwara, M.

M. Fujiwara, N. Shimosaka, M. Nishio, S. Suzuki, S. Yamazaki, S. Murata, and K. Kaede, “A coherent photonic wavelength-division switching system for broadband networks,” in Proc. ECOC1988 (1988), 139–142.

Girardin, F.

F. Girardin, G. Guekos, and A. Houbavlis, “Gain recovery of bulk semiconductor optical amplifiers,” IEEE Photonics Technol. Lett. 10(6), 784–786 (1998).
[Crossref]

Gruner-Nielsen, L.

Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
[Crossref]

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Guekos, G.

F. Girardin, G. Guekos, and A. Houbavlis, “Gain recovery of bulk semiconductor optical amplifiers,” IEEE Photonics Technol. Lett. 10(6), 784–786 (1998).
[Crossref]

Hallam, W. J.

Hansryd, J.

J. Hansryd, P. A. Andrekson, M. Westlund, J. Li, and P. O. Hedekvist, “Fiber-based optical parametric amplifiers and their applications,” IEEE J. Sel. Top. Quantum Electron. 8(3), 506–520 (2002).
[Crossref]

Hedekvist, P. O.

J. Hansryd, P. A. Andrekson, M. Westlund, J. Li, and P. O. Hedekvist, “Fiber-based optical parametric amplifiers and their applications,” IEEE J. Sel. Top. Quantum Electron. 8(3), 506–520 (2002).
[Crossref]

Herstrom, S.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Houbavlis, A.

F. Girardin, G. Guekos, and A. Houbavlis, “Gain recovery of bulk semiconductor optical amplifiers,” IEEE Photonics Technol. Lett. 10(6), 784–786 (1998).
[Crossref]

Huynh, C. K.

Inohara, R.

H. S. Chung, R. Inohara, K. Nishimura, and M. Usami, “All-optical multi-wavelength conversion of 10 Gbit/s NRZ/RZ signals based on SOA-MZI for WDM multicasting,” Electron. Lett. 41(7), 432–433 (2005).
[Crossref]

Jackson, M. K.

Jacobs, E. W.

Jakobsen, D.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Joergensen, C.

T. Durhuus, B. Mikkelsen, C. Joergensen, S. L. Danielsen, and K. E. Stubkjaer, “All-optical wavelength conversion by semiconductor optical amplifiers,” J. Lightwave Technol. 14(6), 942–954 (1996).
[Crossref]

Kaede, K.

M. Fujiwara, N. Shimosaka, M. Nishio, S. Suzuki, S. Yamazaki, S. Murata, and K. Kaede, “A coherent photonic wavelength-division switching system for broadband networks,” in Proc. ECOC1988 (1988), 139–142.

Kakande, J.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Karlsson, M.

Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
[Crossref]

T. Richter, B. Corcoran, S. L. Olsson, C. Lundstrom, M. Karlsson, C. Schubert, and P. Andrekson, “Experimental characterization of a phase-sensitive four-mode fiber-optic parametric amplifier,” in ECOC (2012), paper Th.1.F.1.

Kumar, P.

Kuo, B.

Z. Tong, L. Liu, A. O. J. Wiberg, V. Ataie, E. Myslivets, B. Kuo, N. Alic, and S. Radic, “First demonstration of four-mode phase-sensitive multicasting of optical channel,” in CLEO 2013 (2013), paper CTh5D.6.

Kuo, B. P. P.

Kuo, B. P.-P.

Lasri, J.

Li, J.

J. Hansryd, P. A. Andrekson, M. Westlund, J. Li, and P. O. Hedekvist, “Fiber-based optical parametric amplifiers and their applications,” IEEE J. Sel. Top. Quantum Electron. 8(3), 506–520 (2002).
[Crossref]

Liu, L.

Lundstrom, C.

Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
[Crossref]

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

E. Myslivets, C. Lundstrom, J. M. Aparicio, S. Moro, A. O. J. Wiberg, C. S. Bres, N. Alic, P. A. Andrekson, and S. Radic, “Spatial equalization of zero-dispersion wavelength profiles in nonlinear fibers,” IEEE Photonics Technol. Lett. 21(24), 1807–1809 (2009).
[Crossref]

T. Richter, B. Corcoran, S. L. Olsson, C. Lundstrom, M. Karlsson, C. Schubert, and P. Andrekson, “Experimental characterization of a phase-sensitive four-mode fiber-optic parametric amplifier,” in ECOC (2012), paper Th.1.F.1.

Malli, R.

R. Malli, X. Zhang, and C. Qiao, “Benefits of multicasting in all-optical networks,” Proc. SPIE 3531, 209–220 (1998).
[Crossref]

McKinstrie, C.

McKinstrie, C. J.

Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
[Crossref]

Mendinueta, J. M. D.

Mikkelsen, B.

T. Durhuus, B. Mikkelsen, C. Joergensen, S. L. Danielsen, and K. E. Stubkjaer, “All-optical wavelength conversion by semiconductor optical amplifiers,” J. Lightwave Technol. 14(6), 942–954 (1996).
[Crossref]

Moro, S.

E. Myslivets, C. Lundstrom, J. M. Aparicio, S. Moro, A. O. J. Wiberg, C. S. Bres, N. Alic, P. A. Andrekson, and S. Radic, “Spatial equalization of zero-dispersion wavelength profiles in nonlinear fibers,” IEEE Photonics Technol. Lett. 21(24), 1807–1809 (2009).
[Crossref]

Mouftah, H. T.

J. M. H. Elmirghani and H. T. Mouftah, “All-optical wavelength conversion: technologies and applications in DWDM networks,” IEEE Commun. Mag. 38(3), 86–92 (2000).
[Crossref]

Movassaghi, M.

Mukherjee, B.

L. H. Sahasrabuddhe and B. Mukherjee, “Light-trees: optical multicasting for improved performance in wavelength-routed networks,” IEEE Commun. Mag. 37(2), 67–73 (1999).
[Crossref]

B. Ramamurthy and B. Mukherjee, “Wavelength conversion in WDM networking,” IEEE J. Sel. Areas Comm. 16(7), 1061–1073 (1998).
[Crossref]

Murata, S.

M. Fujiwara, N. Shimosaka, M. Nishio, S. Suzuki, S. Yamazaki, S. Murata, and K. Kaede, “A coherent photonic wavelength-division switching system for broadband networks,” in Proc. ECOC1988 (1988), 139–142.

Myslivets, E.

L. Liu, A. O. J. Wiberg, B. P.-P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Comparison of PS one- and three-mode wavelength multicasting,” J. Lightwave Technol. 34(10), 2491–2499 (2016).
[Crossref]

L. Liu, Z. Tong, A. O. J. Wiberg, B. P. P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Digital multi-channel stabilization of four-mode phase-sensitive parametric multicasting,” Opt. Express 22(15), 18379–18388 (2014).
[Crossref] [PubMed]

A. O. J. Wiberg, D. J. Esman, L. Liu, J. R. Adleman, S. Zlatanovic, V. Ataie, E. Myslivets, B. P.-P. Kuo, N. Alic, E. W. Jacobs, and S. Radic, “Coherent filterless wideband microwave/millimeter-wave channelizer based on Broadband Parametric Mixers,” J. Lightwave Technol. 32(20), 3609–3617 (2014).
[Crossref]

Z. Tong, A. O. J. Wiberg, E. Myslivets, C. K. Huynh, B. P. P. Kuo, N. Alic, and S. Radic, “Noise performance of phase-insensitive frequency multicasting in parametric mixer with finite dispersion,” Opt. Express 21(15), 17659–17669 (2013).
[Crossref] [PubMed]

Z. Tong, A. O. Wiberg, E. Myslivets, B. P. P. Kuo, N. Alic, and S. Radic, “Broadband parametric multicasting via four-mode phase-sensitive interaction,” Opt. Express 20(17), 19363–19373 (2012).
[Crossref] [PubMed]

E. Myslivets, B. P. P. Kuo, N. Alic, and S. Radic, “Generation of wideband frequency combs by continuous-wave seeding of multistage mixers with synthesized dispersion,” Opt. Express 20(3), 3331–3344 (2012).
[Crossref] [PubMed]

B. P. P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Wavelength multicasting via frequency comb generation in a bandwidth-enhanced fiber optical parametric xixer,” J. Lightwave Technol. 29(23), 3515–3522 (2011).
[Crossref]

C. S. Bres, N. Alic, E. Myslivets, and S. Radic, “Scalable multicasting in one-pump parametric amplifier,” J. Lightwave Technol. 27(3), 356–363 (2009).
[Crossref]

E. Myslivets, C. Lundstrom, J. M. Aparicio, S. Moro, A. O. J. Wiberg, C. S. Bres, N. Alic, P. A. Andrekson, and S. Radic, “Spatial equalization of zero-dispersion wavelength profiles in nonlinear fibers,” IEEE Photonics Technol. Lett. 21(24), 1807–1809 (2009).
[Crossref]

Z. Tong, L. Liu, A. O. J. Wiberg, V. Ataie, E. Myslivets, B. Kuo, N. Alic, and S. Radic, “First demonstration of four-mode phase-sensitive multicasting of optical channel,” in CLEO 2013 (2013), paper CTh5D.6.

A. O. J. Wiberg, Z. Tong, L. Liu, J. L. Ponsetto, V. Ataie, E. Myslivets, N. Alic, and S. Radic, “Demonstration of 40 GHz analog-to-digital conversion using copy-and-sample-all parametric processing,” in Proc. OFC/NFOEC 2012, paper OW3C.2 (2012).

Nishimura, K.

H. S. Chung, R. Inohara, K. Nishimura, and M. Usami, “All-optical multi-wavelength conversion of 10 Gbit/s NRZ/RZ signals based on SOA-MZI for WDM multicasting,” Electron. Lett. 41(7), 432–433 (2005).
[Crossref]

Nishio, M.

M. Fujiwara, N. Shimosaka, M. Nishio, S. Suzuki, S. Yamazaki, S. Murata, and K. Kaede, “A coherent photonic wavelength-division switching system for broadband networks,” in Proc. ECOC1988 (1988), 139–142.

Nogueira, R. N.

O’Gorman, J.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Obarski, G.

G. Obarski, “Precise calibration for optical amplifier noise figure measurement using the RIN subtraction method,” in Proc. OFC2003, 601–603 (2003).

Olsson, S. L.

T. Richter, B. Corcoran, S. L. Olsson, C. Lundstrom, M. Karlsson, C. Schubert, and P. Andrekson, “Experimental characterization of a phase-sensitive four-mode fiber-optic parametric amplifier,” in ECOC (2012), paper Th.1.F.1.

Parmigiani, F.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Petropoulos, P.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Phelan, R.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Ponsetto, J. L.

A. O. J. Wiberg, Z. Tong, L. Liu, J. L. Ponsetto, V. Ataie, E. Myslivets, N. Alic, and S. Radic, “Demonstration of 40 GHz analog-to-digital conversion using copy-and-sample-all parametric processing,” in Proc. OFC/NFOEC 2012, paper OW3C.2 (2012).

Presi, M.

G. Contestabile, M. Presi, and E. Ciaramella, “Multiple wavelength conversion for WDM multicasting by FWM in an SOA,” IEEE Photonics Technol. Lett. 16(7), 1775–1777 (2004).
[Crossref]

Puttnam, B. J.

A. A. C. Albuquerque, B. J. Puttnam, J. M. D. Mendinueta, M. V. Drummond, S. Shinada, R. N. Nogueira, and N. Wada, “Experimental investigation of phase-sensitive amplification of data signals in a four-mode fiber-based PSA,” Opt. Lett. 40(2), 288–291 (2015).
[Crossref] [PubMed]

Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
[Crossref]

Qiao, C.

R. Malli, X. Zhang, and C. Qiao, “Benefits of multicasting in all-optical networks,” Proc. SPIE 3531, 209–220 (1998).
[Crossref]

Radic, S.

L. Liu, A. O. J. Wiberg, B. P.-P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Comparison of PS one- and three-mode wavelength multicasting,” J. Lightwave Technol. 34(10), 2491–2499 (2016).
[Crossref]

A. O. J. Wiberg, D. J. Esman, L. Liu, J. R. Adleman, S. Zlatanovic, V. Ataie, E. Myslivets, B. P.-P. Kuo, N. Alic, E. W. Jacobs, and S. Radic, “Coherent filterless wideband microwave/millimeter-wave channelizer based on Broadband Parametric Mixers,” J. Lightwave Technol. 32(20), 3609–3617 (2014).
[Crossref]

L. Liu, Z. Tong, A. O. J. Wiberg, B. P. P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Digital multi-channel stabilization of four-mode phase-sensitive parametric multicasting,” Opt. Express 22(15), 18379–18388 (2014).
[Crossref] [PubMed]

Z. Tong and S. Radic, “Low-noise optical amplification and signal processing in parametric devices,” Adv. Opt. Photonics 5(3), 318–384 (2013).
[Crossref]

Z. Tong, A. O. J. Wiberg, E. Myslivets, C. K. Huynh, B. P. P. Kuo, N. Alic, and S. Radic, “Noise performance of phase-insensitive frequency multicasting in parametric mixer with finite dispersion,” Opt. Express 21(15), 17659–17669 (2013).
[Crossref] [PubMed]

Z. Tong, A. O. Wiberg, E. Myslivets, B. P. P. Kuo, N. Alic, and S. Radic, “Broadband parametric multicasting via four-mode phase-sensitive interaction,” Opt. Express 20(17), 19363–19373 (2012).
[Crossref] [PubMed]

E. Myslivets, B. P. P. Kuo, N. Alic, and S. Radic, “Generation of wideband frequency combs by continuous-wave seeding of multistage mixers with synthesized dispersion,” Opt. Express 20(3), 3331–3344 (2012).
[Crossref] [PubMed]

S. Radic, “Parametric signal processing,” IEEE J. Sel. Top. Quantum Electron. 18(2), 670–680 (2012).
[Crossref]

B. P. P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Wavelength multicasting via frequency comb generation in a bandwidth-enhanced fiber optical parametric xixer,” J. Lightwave Technol. 29(23), 3515–3522 (2011).
[Crossref]

C. S. Bres, N. Alic, E. Myslivets, and S. Radic, “Scalable multicasting in one-pump parametric amplifier,” J. Lightwave Technol. 27(3), 356–363 (2009).
[Crossref]

E. Myslivets, C. Lundstrom, J. M. Aparicio, S. Moro, A. O. J. Wiberg, C. S. Bres, N. Alic, P. A. Andrekson, and S. Radic, “Spatial equalization of zero-dispersion wavelength profiles in nonlinear fibers,” IEEE Photonics Technol. Lett. 21(24), 1807–1809 (2009).
[Crossref]

C. McKinstrie, S. Radic, and M. Raymer, “Quantum noise properties of parametric amplifiers driven by two pump waves,” Opt. Express 12(21), 5037–5066 (2004).
[Crossref] [PubMed]

Z. Tong, L. Liu, A. O. J. Wiberg, V. Ataie, E. Myslivets, B. Kuo, N. Alic, and S. Radic, “First demonstration of four-mode phase-sensitive multicasting of optical channel,” in CLEO 2013 (2013), paper CTh5D.6.

A. O. J. Wiberg, Z. Tong, L. Liu, J. L. Ponsetto, V. Ataie, E. Myslivets, N. Alic, and S. Radic, “Demonstration of 40 GHz analog-to-digital conversion using copy-and-sample-all parametric processing,” in Proc. OFC/NFOEC 2012, paper OW3C.2 (2012).

Ramamurthy, B.

B. Ramamurthy and B. Mukherjee, “Wavelength conversion in WDM networking,” IEEE J. Sel. Areas Comm. 16(7), 1061–1073 (1998).
[Crossref]

Raymer, M.

Richardson, D. J.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Richter, T.

T. Richter, B. Corcoran, S. L. Olsson, C. Lundstrom, M. Karlsson, C. Schubert, and P. Andrekson, “Experimental characterization of a phase-sensitive four-mode fiber-optic parametric amplifier,” in ECOC (2012), paper Th.1.F.1.

Sahasrabuddhe, L. H.

L. H. Sahasrabuddhe and B. Mukherjee, “Light-trees: optical multicasting for improved performance in wavelength-routed networks,” IEEE Commun. Mag. 37(2), 67–73 (1999).
[Crossref]

Schubert, C.

T. Richter, B. Corcoran, S. L. Olsson, C. Lundstrom, M. Karlsson, C. Schubert, and P. Andrekson, “Experimental characterization of a phase-sensitive four-mode fiber-optic parametric amplifier,” in ECOC (2012), paper Th.1.F.1.

Shimosaka, N.

M. Fujiwara, N. Shimosaka, M. Nishio, S. Suzuki, S. Yamazaki, S. Murata, and K. Kaede, “A coherent photonic wavelength-division switching system for broadband networks,” in Proc. ECOC1988 (1988), 139–142.

Shinada, S.

Sjodin, M.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Slavik, R.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Smith, V. M.

Stubkjaer, K. E.

T. Durhuus, B. Mikkelsen, C. Joergensen, S. L. Danielsen, and K. E. Stubkjaer, “All-optical wavelength conversion by semiconductor optical amplifiers,” J. Lightwave Technol. 14(6), 942–954 (1996).
[Crossref]

Suzuki, S.

M. Fujiwara, N. Shimosaka, M. Nishio, S. Suzuki, S. Yamazaki, S. Murata, and K. Kaede, “A coherent photonic wavelength-division switching system for broadband networks,” in Proc. ECOC1988 (1988), 139–142.

Sygletos, S.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Syvridis, D.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Tang, R.

Tipsuwannakul, E.

Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
[Crossref]

Toda, H.

Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
[Crossref]

Tong, Z.

L. Liu, Z. Tong, A. O. J. Wiberg, B. P. P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Digital multi-channel stabilization of four-mode phase-sensitive parametric multicasting,” Opt. Express 22(15), 18379–18388 (2014).
[Crossref] [PubMed]

Z. Tong, A. O. J. Wiberg, E. Myslivets, C. K. Huynh, B. P. P. Kuo, N. Alic, and S. Radic, “Noise performance of phase-insensitive frequency multicasting in parametric mixer with finite dispersion,” Opt. Express 21(15), 17659–17669 (2013).
[Crossref] [PubMed]

Z. Tong and S. Radic, “Low-noise optical amplification and signal processing in parametric devices,” Adv. Opt. Photonics 5(3), 318–384 (2013).
[Crossref]

Z. Tong, A. O. Wiberg, E. Myslivets, B. P. P. Kuo, N. Alic, and S. Radic, “Broadband parametric multicasting via four-mode phase-sensitive interaction,” Opt. Express 20(17), 19363–19373 (2012).
[Crossref] [PubMed]

Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
[Crossref]

A. O. J. Wiberg, Z. Tong, L. Liu, J. L. Ponsetto, V. Ataie, E. Myslivets, N. Alic, and S. Radic, “Demonstration of 40 GHz analog-to-digital conversion using copy-and-sample-all parametric processing,” in Proc. OFC/NFOEC 2012, paper OW3C.2 (2012).

Z. Tong, L. Liu, A. O. J. Wiberg, V. Ataie, E. Myslivets, B. Kuo, N. Alic, and S. Radic, “First demonstration of four-mode phase-sensitive multicasting of optical channel,” in CLEO 2013 (2013), paper CTh5D.6.

Usami, M.

H. S. Chung, R. Inohara, K. Nishimura, and M. Usami, “All-optical multi-wavelength conversion of 10 Gbit/s NRZ/RZ signals based on SOA-MZI for WDM multicasting,” Electron. Lett. 41(7), 432–433 (2005).
[Crossref]

Voss, P. L.

Wada, N.

Weerasuriya, R.

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Westlund, M.

J. Hansryd, P. A. Andrekson, M. Westlund, J. Li, and P. O. Hedekvist, “Fiber-based optical parametric amplifiers and their applications,” IEEE J. Sel. Top. Quantum Electron. 8(3), 506–520 (2002).
[Crossref]

Wiberg, A. O.

Wiberg, A. O. J.

L. Liu, A. O. J. Wiberg, B. P.-P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Comparison of PS one- and three-mode wavelength multicasting,” J. Lightwave Technol. 34(10), 2491–2499 (2016).
[Crossref]

L. Liu, Z. Tong, A. O. J. Wiberg, B. P. P. Kuo, E. Myslivets, N. Alic, and S. Radic, “Digital multi-channel stabilization of four-mode phase-sensitive parametric multicasting,” Opt. Express 22(15), 18379–18388 (2014).
[Crossref] [PubMed]

A. O. J. Wiberg, D. J. Esman, L. Liu, J. R. Adleman, S. Zlatanovic, V. Ataie, E. Myslivets, B. P.-P. Kuo, N. Alic, E. W. Jacobs, and S. Radic, “Coherent filterless wideband microwave/millimeter-wave channelizer based on Broadband Parametric Mixers,” J. Lightwave Technol. 32(20), 3609–3617 (2014).
[Crossref]

Z. Tong, A. O. J. Wiberg, E. Myslivets, C. K. Huynh, B. P. P. Kuo, N. Alic, and S. Radic, “Noise performance of phase-insensitive frequency multicasting in parametric mixer with finite dispersion,” Opt. Express 21(15), 17659–17669 (2013).
[Crossref] [PubMed]

E. Myslivets, C. Lundstrom, J. M. Aparicio, S. Moro, A. O. J. Wiberg, C. S. Bres, N. Alic, P. A. Andrekson, and S. Radic, “Spatial equalization of zero-dispersion wavelength profiles in nonlinear fibers,” IEEE Photonics Technol. Lett. 21(24), 1807–1809 (2009).
[Crossref]

Z. Tong, L. Liu, A. O. J. Wiberg, V. Ataie, E. Myslivets, B. Kuo, N. Alic, and S. Radic, “First demonstration of four-mode phase-sensitive multicasting of optical channel,” in CLEO 2013 (2013), paper CTh5D.6.

A. O. J. Wiberg, Z. Tong, L. Liu, J. L. Ponsetto, V. Ataie, E. Myslivets, N. Alic, and S. Radic, “Demonstration of 40 GHz analog-to-digital conversion using copy-and-sample-all parametric processing,” in Proc. OFC/NFOEC 2012, paper OW3C.2 (2012).

Yamazaki, S.

M. Fujiwara, N. Shimosaka, M. Nishio, S. Suzuki, S. Yamazaki, S. Murata, and K. Kaede, “A coherent photonic wavelength-division switching system for broadband networks,” in Proc. ECOC1988 (1988), 139–142.

Zhang, X.

R. Malli, X. Zhang, and C. Qiao, “Benefits of multicasting in all-optical networks,” Proc. SPIE 3531, 209–220 (1998).
[Crossref]

Zlatanovic, S.

Adv. Opt. Photonics (1)

Z. Tong and S. Radic, “Low-noise optical amplification and signal processing in parametric devices,” Adv. Opt. Photonics 5(3), 318–384 (2013).
[Crossref]

Electron. Lett. (1)

H. S. Chung, R. Inohara, K. Nishimura, and M. Usami, “All-optical multi-wavelength conversion of 10 Gbit/s NRZ/RZ signals based on SOA-MZI for WDM multicasting,” Electron. Lett. 41(7), 432–433 (2005).
[Crossref]

IEEE Commun. Mag. (2)

J. M. H. Elmirghani and H. T. Mouftah, “All-optical wavelength conversion: technologies and applications in DWDM networks,” IEEE Commun. Mag. 38(3), 86–92 (2000).
[Crossref]

L. H. Sahasrabuddhe and B. Mukherjee, “Light-trees: optical multicasting for improved performance in wavelength-routed networks,” IEEE Commun. Mag. 37(2), 67–73 (1999).
[Crossref]

IEEE J. Sel. Areas Comm. (2)

B. Ramamurthy and B. Mukherjee, “Wavelength conversion in WDM networking,” IEEE J. Sel. Areas Comm. 16(7), 1061–1073 (1998).
[Crossref]

C. A. Brackett, “Dense wavelength division multiplexing networks: principle and applications,” IEEE J. Sel. Areas Comm. 8(6), 948–964 (1990).
[Crossref]

IEEE J. Sel. Top. Quantum Electron. (2)

S. Radic, “Parametric signal processing,” IEEE J. Sel. Top. Quantum Electron. 18(2), 670–680 (2012).
[Crossref]

J. Hansryd, P. A. Andrekson, M. Westlund, J. Li, and P. O. Hedekvist, “Fiber-based optical parametric amplifiers and their applications,” IEEE J. Sel. Top. Quantum Electron. 8(3), 506–520 (2002).
[Crossref]

IEEE Photonics Technol. Lett. (3)

F. Girardin, G. Guekos, and A. Houbavlis, “Gain recovery of bulk semiconductor optical amplifiers,” IEEE Photonics Technol. Lett. 10(6), 784–786 (1998).
[Crossref]

G. Contestabile, M. Presi, and E. Ciaramella, “Multiple wavelength conversion for WDM multicasting by FWM in an SOA,” IEEE Photonics Technol. Lett. 16(7), 1775–1777 (2004).
[Crossref]

E. Myslivets, C. Lundstrom, J. M. Aparicio, S. Moro, A. O. J. Wiberg, C. S. Bres, N. Alic, P. A. Andrekson, and S. Radic, “Spatial equalization of zero-dispersion wavelength profiles in nonlinear fibers,” IEEE Photonics Technol. Lett. 21(24), 1807–1809 (2009).
[Crossref]

J. Lightwave Technol. (6)

Nat. Photonics (2)

Z. Tong, C. Lundstrom, P. A. Andrekson, C. J. McKinstrie, M. Karlsson, D. J. Blessing, E. Tipsuwannakul, B. J. Puttnam, H. Toda, and L. Gruner-Nielsen, “Towards ultrasensitive optical links enabled by low-noise phase-sensitive amplifiers,” Nat. Photonics 5(7), 430–436 (2011).
[Crossref]

R. Slavik, F. Parmigiani, J. Kakande, C. Lundstrom, M. Sjodin, P. A. Andrekson, R. Weerasuriya, S. Sygletos, A. D. Ellis, L. Gruner-Nielsen, D. Jakobsen, S. Herstrom, R. Phelan, J. O’Gorman, A. Bogris, D. Syvridis, S. Dasgupta, P. Petropoulos, and D. J. Richardson, “All-optical phase and amplitude regenerator for next-generation telecommunications systems,” Nat. Photonics 4(10), 690–695 (2010).
[Crossref]

Opt. Express (5)

Opt. Lett. (2)

Proc. SPIE (1)

R. Malli, X. Zhang, and C. Qiao, “Benefits of multicasting in all-optical networks,” Proc. SPIE 3531, 209–220 (1998).
[Crossref]

Other (5)

M. Fujiwara, N. Shimosaka, M. Nishio, S. Suzuki, S. Yamazaki, S. Murata, and K. Kaede, “A coherent photonic wavelength-division switching system for broadband networks,” in Proc. ECOC1988 (1988), 139–142.

A. O. J. Wiberg, Z. Tong, L. Liu, J. L. Ponsetto, V. Ataie, E. Myslivets, N. Alic, and S. Radic, “Demonstration of 40 GHz analog-to-digital conversion using copy-and-sample-all parametric processing,” in Proc. OFC/NFOEC 2012, paper OW3C.2 (2012).

T. Richter, B. Corcoran, S. L. Olsson, C. Lundstrom, M. Karlsson, C. Schubert, and P. Andrekson, “Experimental characterization of a phase-sensitive four-mode fiber-optic parametric amplifier,” in ECOC (2012), paper Th.1.F.1.

G. Obarski, “Precise calibration for optical amplifier noise figure measurement using the RIN subtraction method,” in Proc. OFC2003, 601–603 (2003).

Z. Tong, L. Liu, A. O. J. Wiberg, V. Ataie, E. Myslivets, B. Kuo, N. Alic, and S. Radic, “First demonstration of four-mode phase-sensitive multicasting of optical channel,” in CLEO 2013 (2013), paper CTh5D.6.

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 (4)

Fig. 1
Fig. 1 (a). PI two-mode spectral schematic. S1 in purple is the input signal, S2 in grey is the replicated signal channel. (b) PI four-mode spectral configuration. S1 in purple is the input signal, S2 to S4 in grey are the replicated signal channels. (c) PI multi-mode channel replication spectral configuration. S1 in purple is the input signal, P1/P2 are the input pumps, other waves in grey are the replicated high-order pumps/signals. (d) PS four-mode channel replication spectral configuration. S1 to S4 in purple are the frequency-locked and phase-correlated input signals. (e) Degenerate PS one-mode parametric amplifier in three-wave model. (f) PS three-mode parametric amplifier in five-wave model. (g) Degenerate PS one-mode channel replication in five-wave model. S1 in purple is the input signal, P1/P2 are the input pumps, S2/S3 are the replicated signal channels in five-wave model. (h) Localized noise coupling state for degenerate PS one- and three-mode channel replication with high count copy number (signal channel number>3). All the input and output signals can be considered as two waves sharing the same frequency. Here, we note that the input and output signal waves are assumed equalized.
Fig. 2
Fig. 2 Experimental setup configuration, including reference comb, pump recovery, parametric mixer and DPLL. LD: laser diode, MZM: Mach-Zehnder modulator, PM: phase modulator, PS: phase shifter, OP: optical processor, SL: slave laser, PZT: Piezoelectric transducer, HNLF: highly nonlinear fiber, SMF: single mode fiber, ADC: analog-to-digital converter, DAC: digital-to-analog converter, MICP: microprocessor, DPLL: digital phase-locked loop.
Fig. 3
Fig. 3 (a) Monitored experimental spectrum of the reference comb. (b) Experimental spectral comparison of PI one-mode and PS four-mode channel replication. (c) Expanded spectrum of central 20 copies.
Fig. 4
Fig. 4 (a) Monitored experimental spectrum of reference comb. (b) Experimental spectral comparison of PI one-mode and PS four-mode wavelength multicasting.

Equations (12)

Equations on this page are rendered with MathJax. Learn more.

SN R in_PI = R 2 P 0 2 4 R 2 P 0 h ν in 2 = P 0 2h ν in
SN R out_PIN = R 2 ( G PI P 0 ) 2 4 R 2 G PI P 0 ( N G PI h ν out 2 ) = 1 N P 0 2h ν out
SN R out_PIN_NormalD = R 2 ( G PI P 0 ) 2 4 R 2 G PI P 0 ( 4 G PI hν 2 ) = 1 4 P 0 2hν
SN R out_PS4_NormalD = R 2 ( 16 G PI P 0 ) 2 4 R 2 16 G PI P 0 ( 4 G PI hν 2 ) =4 P 0 2hν
SN R in_PS4 = R 2 ( 16 P 0 ) 2 4 R 2 16 P 0 4 hν 2 =4 P 0 2hν
SN R in_PSN = R 2 ( 2N ) 4 P 0 2 4 R 2 ( 2N ) 2 P 0 2N hν 2 =2N P 0 2hν
SN R out_PSN_NormalD = R 2 ( 2N ) 4 ( G PI P 0 ) 2 4 R 2 ( 2N ) 2 G PI P 0 ( 2N G PI hν 2 ) =2N P 0 2hν
SN R in_PS1 = R 2 P 0 2 4 R 2 P 0 hν 2 = P 0 2hν
SN R out_PS1_NormalD_5wave = R 2 ( G PS P 0 ) 2 4 R 2 G PS P 0 ( 3 G PS hν 2 ) = 1 3 P 0 2hν
SN R out_PS1_NormalD = R 2 ( G PS P 0 ) 2 4 R 2 G PS P 0 ( 2 G PS hν 2 ) = 1 2 P 0 2hν
SN R in_PS3 = R 2 ( 9 P 0 ) 2 4 R 2 9 P 0 3 hν 2 =3 P 0 2hν
SN R out_PS3_NormalD = R 2 ( ( 1+ 2 ) 2 G PS P 0 ) 2 4 R 2 ( 1+ 2 ) 2 G PS P 0 ( 2 G PS hν 2 ) = ( 1+ 2 ) 2 2 P 0 2hν