Abstract

We propose the use of a power pulse shape of the widely known optical soliton, corresponding to the hyperbolic secant square function, for both conventional atmospheric optical communication systems and, especially, for new full-optical wireless communications. We analyze the performance of the proposed pulse in terms of peak-to-average optical power ratio (PAOPR) and bit error rate (BER). During the analysis, we compare the proposed pulse shape against conventional rectangular and Gaussian pulse shapes with reduced duty cycle. Results show the noticeable superiority of the proposed pulse for atmospheric optical links.

© 2012 Chinese Optics Letters

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  1. K. Kazaura, K. Wakamori, M. Matsumoto, T. Higashino, K. Tsukamoto, and S. Komaki, IEEE Commun. Mag. 48, 130 (2010).
  2. L. C. Andrews, R. L. Phillips, and C. Y. Hopen, Laser Beam Scintillation with Applications (Bellingham, Washington, 2001).
  3. M. Razavi and J. H. Shapiro, IEEE Trans. Wire. Commun. 4, 975 (2005).
  4. M. Matsumoto, K. Kazaura, P. Dat, A. Shah, K. Omae, T. Suzuki, K. Wakamori, T. Higashino, K. Tsukamoto, and S. Komaki, in Proceedings of the First ITU-T Kaleidoscope Academic Conference, Innovations in NGN (KINGN 2008 ) 221 (2008).
  5. J. M. Garrido-Balsells, A. Garc3a-Zambrana, and A. Puerta-Notario, IEE Electron. Lett. 42, 43 (2006).
  6. A. Jurado-Navas, J. M. Garrido-Balsells, M. Castillo-Vazquez, and A. Puerta-Notario, Opt. Express 18, 17346 (2010).
  7. Y. S. Kivshar and G. P. Agrawal, Optical Solitons: From Fibers to Photonic Crystals (Academic Press, Amsterdam, 2003).
  8. M. A. Al-Habash, L. C. Andrews, and R. L. Phillips, Opt. Eng. 40, 1554 (2001).
  9. The Wolfram functions site (2001), http://functions.wolfram.com.
  10. T. A. Tsiftsis, IET Electron. Lett. 44, 373 (2008).
  11. A. Hasegawa, IEEE J. Sel. Top. Quantum Electron. 6, 1161 (2000).

2010 (2)

K. Kazaura, K. Wakamori, M. Matsumoto, T. Higashino, K. Tsukamoto, and S. Komaki, IEEE Commun. Mag. 48, 130 (2010).

A. Jurado-Navas, J. M. Garrido-Balsells, M. Castillo-Vazquez, and A. Puerta-Notario, Opt. Express 18, 17346 (2010).

2008 (1)

T. A. Tsiftsis, IET Electron. Lett. 44, 373 (2008).

2006 (1)

J. M. Garrido-Balsells, A. Garc3a-Zambrana, and A. Puerta-Notario, IEE Electron. Lett. 42, 43 (2006).

2005 (1)

M. Razavi and J. H. Shapiro, IEEE Trans. Wire. Commun. 4, 975 (2005).

2001 (1)

M. A. Al-Habash, L. C. Andrews, and R. L. Phillips, Opt. Eng. 40, 1554 (2001).

2000 (1)

A. Hasegawa, IEEE J. Sel. Top. Quantum Electron. 6, 1161 (2000).

Al-Habash, M. A.

M. A. Al-Habash, L. C. Andrews, and R. L. Phillips, Opt. Eng. 40, 1554 (2001).

Andrews, L. C.

M. A. Al-Habash, L. C. Andrews, and R. L. Phillips, Opt. Eng. 40, 1554 (2001).

Castillo-Vazquez, M.

Garc3a-Zambrana, A.

J. M. Garrido-Balsells, A. Garc3a-Zambrana, and A. Puerta-Notario, IEE Electron. Lett. 42, 43 (2006).

Garrido-Balsells, J. M.

A. Jurado-Navas, J. M. Garrido-Balsells, M. Castillo-Vazquez, and A. Puerta-Notario, Opt. Express 18, 17346 (2010).

J. M. Garrido-Balsells, A. Garc3a-Zambrana, and A. Puerta-Notario, IEE Electron. Lett. 42, 43 (2006).

Hasegawa, A.

A. Hasegawa, IEEE J. Sel. Top. Quantum Electron. 6, 1161 (2000).

Higashino, T.

K. Kazaura, K. Wakamori, M. Matsumoto, T. Higashino, K. Tsukamoto, and S. Komaki, IEEE Commun. Mag. 48, 130 (2010).

Jurado-Navas, A.

Kazaura, K.

K. Kazaura, K. Wakamori, M. Matsumoto, T. Higashino, K. Tsukamoto, and S. Komaki, IEEE Commun. Mag. 48, 130 (2010).

Komaki, S.

K. Kazaura, K. Wakamori, M. Matsumoto, T. Higashino, K. Tsukamoto, and S. Komaki, IEEE Commun. Mag. 48, 130 (2010).

Matsumoto, M.

K. Kazaura, K. Wakamori, M. Matsumoto, T. Higashino, K. Tsukamoto, and S. Komaki, IEEE Commun. Mag. 48, 130 (2010).

Phillips, R. L.

M. A. Al-Habash, L. C. Andrews, and R. L. Phillips, Opt. Eng. 40, 1554 (2001).

Puerta-Notario, A.

A. Jurado-Navas, J. M. Garrido-Balsells, M. Castillo-Vazquez, and A. Puerta-Notario, Opt. Express 18, 17346 (2010).

J. M. Garrido-Balsells, A. Garc3a-Zambrana, and A. Puerta-Notario, IEE Electron. Lett. 42, 43 (2006).

Razavi, M.

M. Razavi and J. H. Shapiro, IEEE Trans. Wire. Commun. 4, 975 (2005).

Shapiro, J. H.

M. Razavi and J. H. Shapiro, IEEE Trans. Wire. Commun. 4, 975 (2005).

Tsiftsis, T. A.

T. A. Tsiftsis, IET Electron. Lett. 44, 373 (2008).

Tsukamoto, K.

K. Kazaura, K. Wakamori, M. Matsumoto, T. Higashino, K. Tsukamoto, and S. Komaki, IEEE Commun. Mag. 48, 130 (2010).

Wakamori, K.

K. Kazaura, K. Wakamori, M. Matsumoto, T. Higashino, K. Tsukamoto, and S. Komaki, IEEE Commun. Mag. 48, 130 (2010).

IEE Electron. Lett. (1)

J. M. Garrido-Balsells, A. Garc3a-Zambrana, and A. Puerta-Notario, IEE Electron. Lett. 42, 43 (2006).

IEEE Commun. Mag. (1)

K. Kazaura, K. Wakamori, M. Matsumoto, T. Higashino, K. Tsukamoto, and S. Komaki, IEEE Commun. Mag. 48, 130 (2010).

IEEE J. Sel. Top. Quantum Electron. (1)

A. Hasegawa, IEEE J. Sel. Top. Quantum Electron. 6, 1161 (2000).

IEEE Trans. Wire. Commun. (1)

M. Razavi and J. H. Shapiro, IEEE Trans. Wire. Commun. 4, 975 (2005).

IET Electron. Lett. (1)

T. A. Tsiftsis, IET Electron. Lett. 44, 373 (2008).

Opt. Eng. (1)

M. A. Al-Habash, L. C. Andrews, and R. L. Phillips, Opt. Eng. 40, 1554 (2001).

Opt. Express (1)

Other (4)

Y. S. Kivshar and G. P. Agrawal, Optical Solitons: From Fibers to Photonic Crystals (Academic Press, Amsterdam, 2003).

The Wolfram functions site (2001), http://functions.wolfram.com.

M. Matsumoto, K. Kazaura, P. Dat, A. Shah, K. Omae, T. Suzuki, K. Wakamori, T. Higashino, K. Tsukamoto, and S. Komaki, in Proceedings of the First ITU-T Kaleidoscope Academic Conference, Innovations in NGN (KINGN 2008 ) 221 (2008).

L. C. Andrews, R. L. Phillips, and C. Y. Hopen, Laser Beam Scintillation with Applications (Bellingham, Washington, 2001).

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