Abstract

We propose and demonstrate a simple scheme for generating the ultrawideband (UWB) signals and reusing the wavelength for upstream service simultaneously by using a distributed polarization modulation-to-intensity modulation convertor. Through adjusting the static phase difference between transverse electric and transverse magnetic modes of the optical carrier (OC) and the angle between the polarization direction of the OC and the principal axis of the polarizers, the UWB doublet-like signals were generated. Meanwhile, the error-free transmission of the upstream signals with bit rate of 1.25Gbit/s over 10 km fiber is achieved. The power penalty resulting from the interference of downstream signals is less than 0.3 dB.

© 2013 Optical Society of America

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    [CrossRef]
  11. S. Pan and J. Yao, IEEE Photon. J. 2, 712 (2010).
    [CrossRef]
  12. J. D. Bull, N. A. F. Jaeger, H. Kato, M. Fairburn, A. Reid, and P. Ghanipour, Proc. SPIE 5577, 133 (2004).
    [CrossRef]

2012 (1)

G. Cheng and S. Pan, Opt. Lett. 37, 4521 (2012).

2011 (1)

2010 (3)

J. Y. Zheng, M. J. Zhang, A. B. Wang, and Y. C. Wang, Opt. Lett. 35, 1734 (2010).
[CrossRef]

S. Pan and J. Yao, IEEE J. Lightwave Technol. 28, 2445 (2010).

S. Pan and J. Yao, IEEE Photon. J. 2, 712 (2010).
[CrossRef]

2009 (1)

2008 (1)

J. Li, K. Xu, S. Fu, M. Tang, P. Shum, J. Wu, and J. Lin, IEEE Photon. Technol. Lett. 20, 1320 (2008).
[CrossRef]

2005 (1)

W. Lee, M. Y. Park, S. H. Cho, J. H. Lee, C. Kim, G. Jeong, and B. W. Kim, IEEE Photon. Technol. Lett. 17, 2460 (2005).
[CrossRef]

2004 (2)

S. Roy, J. R. Foerster, V. S. Somayazulu, and D. G. Leeper, Proc. IEEE 92, 295 (2004).
[CrossRef]

J. D. Bull, N. A. F. Jaeger, H. Kato, M. Fairburn, A. Reid, and P. Ghanipour, Proc. SPIE 5577, 133 (2004).
[CrossRef]

Bolea, M.

Bull, J. D.

J. D. Bull, N. A. F. Jaeger, H. Kato, M. Fairburn, A. Reid, and P. Ghanipour, Proc. SPIE 5577, 133 (2004).
[CrossRef]

Burla, M.

Capmany, J.

Cheng, G.

G. Cheng and S. Pan, Opt. Lett. 37, 4521 (2012).

Chevalier, L.

Cho, S. H.

W. Lee, M. Y. Park, S. H. Cho, J. H. Lee, C. Kim, G. Jeong, and B. W. Kim, IEEE Photon. Technol. Lett. 17, 2460 (2005).
[CrossRef]

Fairburn, M.

J. D. Bull, N. A. F. Jaeger, H. Kato, M. Fairburn, A. Reid, and P. Ghanipour, Proc. SPIE 5577, 133 (2004).
[CrossRef]

Foerster, J. R.

S. Roy, J. R. Foerster, V. S. Somayazulu, and D. G. Leeper, Proc. IEEE 92, 295 (2004).
[CrossRef]

Fu, S.

J. Li, K. Xu, S. Fu, M. Tang, P. Shum, J. Wu, and J. Lin, IEEE Photon. Technol. Lett. 20, 1320 (2008).
[CrossRef]

Ghanipour, P.

J. D. Bull, N. A. F. Jaeger, H. Kato, M. Fairburn, A. Reid, and P. Ghanipour, Proc. SPIE 5577, 133 (2004).
[CrossRef]

Jaeger, N. A. F.

J. D. Bull, N. A. F. Jaeger, H. Kato, M. Fairburn, A. Reid, and P. Ghanipour, Proc. SPIE 5577, 133 (2004).
[CrossRef]

Jeong, G.

W. Lee, M. Y. Park, S. H. Cho, J. H. Lee, C. Kim, G. Jeong, and B. W. Kim, IEEE Photon. Technol. Lett. 17, 2460 (2005).
[CrossRef]

Kato, H.

J. D. Bull, N. A. F. Jaeger, H. Kato, M. Fairburn, A. Reid, and P. Ghanipour, Proc. SPIE 5577, 133 (2004).
[CrossRef]

Kim, B. W.

W. Lee, M. Y. Park, S. H. Cho, J. H. Lee, C. Kim, G. Jeong, and B. W. Kim, IEEE Photon. Technol. Lett. 17, 2460 (2005).
[CrossRef]

Kim, C.

W. Lee, M. Y. Park, S. H. Cho, J. H. Lee, C. Kim, G. Jeong, and B. W. Kim, IEEE Photon. Technol. Lett. 17, 2460 (2005).
[CrossRef]

Lee, J. H.

W. Lee, M. Y. Park, S. H. Cho, J. H. Lee, C. Kim, G. Jeong, and B. W. Kim, IEEE Photon. Technol. Lett. 17, 2460 (2005).
[CrossRef]

Lee, W.

W. Lee, M. Y. Park, S. H. Cho, J. H. Lee, C. Kim, G. Jeong, and B. W. Kim, IEEE Photon. Technol. Lett. 17, 2460 (2005).
[CrossRef]

Leeper, D. G.

S. Roy, J. R. Foerster, V. S. Somayazulu, and D. G. Leeper, Proc. IEEE 92, 295 (2004).
[CrossRef]

Li, J.

J. Li, K. Xu, S. Fu, M. Tang, P. Shum, J. Wu, and J. Lin, IEEE Photon. Technol. Lett. 20, 1320 (2008).
[CrossRef]

Lin, J.

J. Li, K. Xu, S. Fu, M. Tang, P. Shum, J. Wu, and J. Lin, IEEE Photon. Technol. Lett. 20, 1320 (2008).
[CrossRef]

Marpaung, D.

Mora, J.

Ortega, B.

Pan, S.

G. Cheng and S. Pan, Opt. Lett. 37, 4521 (2012).

S. Pan and J. Yao, IEEE J. Lightwave Technol. 28, 2445 (2010).

S. Pan and J. Yao, IEEE Photon. J. 2, 712 (2010).
[CrossRef]

S. Pan and J. Yao, in Proceedings of 23rd Annual Meeting of the IEEE Photonics Society (IEEE, 2010), pp. 653–654.
[CrossRef]

Park, M. Y.

W. Lee, M. Y. Park, S. H. Cho, J. H. Lee, C. Kim, G. Jeong, and B. W. Kim, IEEE Photon. Technol. Lett. 17, 2460 (2005).
[CrossRef]

Reid, A.

J. D. Bull, N. A. F. Jaeger, H. Kato, M. Fairburn, A. Reid, and P. Ghanipour, Proc. SPIE 5577, 133 (2004).
[CrossRef]

Roeloffzen, C.

Roy, S.

S. Roy, J. R. Foerster, V. S. Somayazulu, and D. G. Leeper, Proc. IEEE 92, 295 (2004).
[CrossRef]

Shum, P.

J. Li, K. Xu, S. Fu, M. Tang, P. Shum, J. Wu, and J. Lin, IEEE Photon. Technol. Lett. 20, 1320 (2008).
[CrossRef]

Somayazulu, V. S.

S. Roy, J. R. Foerster, V. S. Somayazulu, and D. G. Leeper, Proc. IEEE 92, 295 (2004).
[CrossRef]

Tang, M.

J. Li, K. Xu, S. Fu, M. Tang, P. Shum, J. Wu, and J. Lin, IEEE Photon. Technol. Lett. 20, 1320 (2008).
[CrossRef]

Wang, A. B.

Wang, Y. C.

Wu, J.

J. Li, K. Xu, S. Fu, M. Tang, P. Shum, J. Wu, and J. Lin, IEEE Photon. Technol. Lett. 20, 1320 (2008).
[CrossRef]

Xu, K.

J. Li, K. Xu, S. Fu, M. Tang, P. Shum, J. Wu, and J. Lin, IEEE Photon. Technol. Lett. 20, 1320 (2008).
[CrossRef]

Yao, J.

S. Pan and J. Yao, IEEE J. Lightwave Technol. 28, 2445 (2010).

S. Pan and J. Yao, IEEE Photon. J. 2, 712 (2010).
[CrossRef]

S. Pan and J. Yao, in Proceedings of 23rd Annual Meeting of the IEEE Photonics Society (IEEE, 2010), pp. 653–654.
[CrossRef]

Zhang, M. J.

Zheng, J. Y.

IEEE J. Lightwave Technol. (1)

S. Pan and J. Yao, IEEE J. Lightwave Technol. 28, 2445 (2010).

IEEE Photon. J. (1)

S. Pan and J. Yao, IEEE Photon. J. 2, 712 (2010).
[CrossRef]

IEEE Photon. Technol. Lett. (2)

W. Lee, M. Y. Park, S. H. Cho, J. H. Lee, C. Kim, G. Jeong, and B. W. Kim, IEEE Photon. Technol. Lett. 17, 2460 (2005).
[CrossRef]

J. Li, K. Xu, S. Fu, M. Tang, P. Shum, J. Wu, and J. Lin, IEEE Photon. Technol. Lett. 20, 1320 (2008).
[CrossRef]

Opt. Express (2)

Opt. Lett. (2)

Proc. IEEE (1)

S. Roy, J. R. Foerster, V. S. Somayazulu, and D. G. Leeper, Proc. IEEE 92, 295 (2004).
[CrossRef]

Proc. SPIE (1)

J. D. Bull, N. A. F. Jaeger, H. Kato, M. Fairburn, A. Reid, and P. Ghanipour, Proc. SPIE 5577, 133 (2004).
[CrossRef]

Other (2)

FCC, Second Report and Order and Second Memorandum Opinion and Order FCC 04-285 Dec. 2004.

S. Pan and J. Yao, in Proceedings of 23rd Annual Meeting of the IEEE Photonics Society (IEEE, 2010), pp. 653–654.
[CrossRef]

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Figures (5)

Fig. 1.
Fig. 1.

(a) Equivalent model of distributed PIC and (b) transfer response curves of the convertor and schematic diagram for the UWB doublet pulse generation and wavelength reusing.

Fig. 2.
Fig. 2.

Diagrammatic sketch of the experiment for generating the UWB doublet-like signals and reusing the OC base on distributed PIC.

Fig. 3.
Fig. 3.

Waveforms and power spectra of the polarity inverted UWB doublet-like pulses recorded at point A as (a) α=0°, φ=2 and (b) α=0°, φ=2+π.

Fig. 4.
Fig. 4.

Sequence diagram recorded at point B as (a) α=45°, eye diagrams of the upstream signals recorded at point C (b) with or (c) without downstream UWB signals modulation.

Fig. 5.
Fig. 5.

BER measurements of the wired upstream signal with or without downstream UWB signals modulation.

Equations (4)

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

[Ex(t)Ey(t)]=22E0ejwct[ej(Φ(t)+φ0+Δφ)ejΦ(t)],
Φ(t)=πv(t)Vπ,
Eout(t)=cos45°·Ex(t)+sin45°·Ey(t)=E0ejwctcos(φ(t)+(φ0+Δφ)/2)·ej(φ0+Δφ)/2.
T(t)=|Eout(t)|2/|E0ejwct|2=1/2·(1+cos(2Φ(t)+φ0+Δφ)),

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