Abstract

New inverse dispersion reconstruction methods are described. Inverse solutions rely exclusively on processing the end-of-fiber observables obtained by a localized four-photon mixing technique. The accuracy of the new methods was verified by solving the inverse problem associated with physical and synthetic dispersion fluctuation maps in high confinement fiber.

© 2010 IEEE

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  1. E. Myslivets, N. Alic, J. R. Windmiller, S. Radic, "A new class of high-resolution measurements of arbitrary-dispersion fibers: Localization of four-photon mixing process," J. Lightw. Technol. 27, 364-375 (2009).
  2. L. F. Mollenauer, P. V. Mamyshev, M. J. Neubelt, "Method for facile and accurate measurement of optical fiber dispersion map," Opt. Lett. 21, (1996).
  3. J. Gripp, L. F. Mollenauer, "Enhanced range for OTDR-like dispersion map measurements," Opt. Lett. 23, (1998).
  4. M. Eiselt, R. M. Jopson, R. H. Stolen, "Nondestructive position-resolved measurement of the zero-dispersion wavelength in an optical fiber," J. Lightw. Technol. 15, 135-143 (1997).
  5. I. Brener, P. P. Mitra, D. J. Thomson, "High-resolution zero-dispersion wavelength fluctuation mapping in dispersion-shifted fiber," Proc. OFC (1998) Paper ThR5.
  6. M. González-Herráez, P. Corredera, M. L. Hernanz, J. A. Méndez, "Retrieval of the zero-dispersion wavelength map of an optical fiber from measurement of its continuous-wave four-wave mixing efficiency," Opt. Lett. 27, 1546-1548 (2002).
  7. W. H. Press, S. A. Teukolsky, W. T. Vetterling, B. P. Flannery, Numerical Recipes in C${+}$ (Cambridge Univ. Press, 2002).
  8. J. Nocedal, S. Wright, Numerical Optimization (Springer, 2006).
  9. E. Myslivets, N. Alic, S. Radic, "Localized measurement of linear polarization rotation parameters in short optical fibers," Proc. ECOC (2009).

2009 (1)

E. Myslivets, N. Alic, J. R. Windmiller, S. Radic, "A new class of high-resolution measurements of arbitrary-dispersion fibers: Localization of four-photon mixing process," J. Lightw. Technol. 27, 364-375 (2009).

2002 (1)

1998 (2)

I. Brener, P. P. Mitra, D. J. Thomson, "High-resolution zero-dispersion wavelength fluctuation mapping in dispersion-shifted fiber," Proc. OFC (1998) Paper ThR5.

J. Gripp, L. F. Mollenauer, "Enhanced range for OTDR-like dispersion map measurements," Opt. Lett. 23, (1998).

1997 (1)

M. Eiselt, R. M. Jopson, R. H. Stolen, "Nondestructive position-resolved measurement of the zero-dispersion wavelength in an optical fiber," J. Lightw. Technol. 15, 135-143 (1997).

1996 (1)

L. F. Mollenauer, P. V. Mamyshev, M. J. Neubelt, "Method for facile and accurate measurement of optical fiber dispersion map," Opt. Lett. 21, (1996).

J. Lightw. Technol. (2)

E. Myslivets, N. Alic, J. R. Windmiller, S. Radic, "A new class of high-resolution measurements of arbitrary-dispersion fibers: Localization of four-photon mixing process," J. Lightw. Technol. 27, 364-375 (2009).

M. Eiselt, R. M. Jopson, R. H. Stolen, "Nondestructive position-resolved measurement of the zero-dispersion wavelength in an optical fiber," J. Lightw. Technol. 15, 135-143 (1997).

Opt. Lett. (3)

L. F. Mollenauer, P. V. Mamyshev, M. J. Neubelt, "Method for facile and accurate measurement of optical fiber dispersion map," Opt. Lett. 21, (1996).

J. Gripp, L. F. Mollenauer, "Enhanced range for OTDR-like dispersion map measurements," Opt. Lett. 23, (1998).

M. González-Herráez, P. Corredera, M. L. Hernanz, J. A. Méndez, "Retrieval of the zero-dispersion wavelength map of an optical fiber from measurement of its continuous-wave four-wave mixing efficiency," Opt. Lett. 27, 1546-1548 (2002).

Proc. OFC (1)

I. Brener, P. P. Mitra, D. J. Thomson, "High-resolution zero-dispersion wavelength fluctuation mapping in dispersion-shifted fiber," Proc. OFC (1998) Paper ThR5.

Other (3)

W. H. Press, S. A. Teukolsky, W. T. Vetterling, B. P. Flannery, Numerical Recipes in C${+}$ (Cambridge Univ. Press, 2002).

J. Nocedal, S. Wright, Numerical Optimization (Springer, 2006).

E. Myslivets, N. Alic, S. Radic, "Localized measurement of linear polarization rotation parameters in short optical fibers," Proc. ECOC (2009).

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