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Journals >Photonics Research >Volume 2 >Issue 4 >Page B26 > Article

Photonics Research
Vol. 2, Issue 4, B26 (2014)

Fiber chromatic dispersion measurement with improved measurement range based on chirped intensity modulation

Shangjian Zhang^*, Xinhai Zou, Heng Wang, Yali Zhang, Heping Li, and and Yong Liu

Author Affiliations

State Key Laboratory of Electronic Thin Films and Integrated Devices, School of Optoelectronic Information, University of Electronic Science & Technology of China, Chengdu 610054, China

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DOI: 10.1364/PRJ.2.000B26 Cite this Article Set citation alerts

Shangjian Zhang, Xinhai Zou, Heng Wang, Yali Zhang, Heping Li, and Yong Liu. Fiber chromatic dispersion measurement with improved measurement range based on chirped intensity modulation[J]. Photonics Research, 2014, 2(4): B26 Copy Citation Text

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References

[1] U. Gliese, S. Norskov, T. N. Nielsen. Chromatic dispersion in fiber-optic microwave and millimeter-wave links. IEEE Trans. Microwave Theor. Tech., 44, 1716-1724(1996).

[2] N. Neumann, R. Herschel, T. Schuster, D. Plettemeier, C. Schaffer. Dispersion estimation via vestigial sideband filtering using an optical delay line filter. J. Opt. Commun. Netw., 3, 155-161(2011).

[3] M. Fujise, M. Kuwazuru, M. Nunokawa, Y. Iwamoto. Highly accurate long-span chromatic dispersion measurement system by a new phase-shift technique. J. Lightwave Technol., 5, 751-758(1987).

[4] K. S. Abedin. Rapid, cost-effective measurement of chromatic dispersion of optical fibre over 1440–1625 nm using Sagnac interferometer. Electron. Lett., 41, 469-471(2005).

[5] K.-S. Jeon, H.-J. Kim, D.-S. Kang, J.-K. Pan. Optical fiber chromatic dispersion measurement using bidirectional modulation of an optical intensity modulator. IEEE Photon. Technol. Lett., 14, 1145-1147(2002).

[6] B. Christensen, J. Mark, G. Jacobsen, E. Bodtker. Simple dispersion measurement technique with high resolution. Electron. Lett., 29, 132-134(1993).

[7] F. Devaux, Y. Sorel, J. F. Kerdiles. Simple measurement of fiber dispersion and chirp parameter of intensity modulated light emitter. J. Lightwave Technol., 11, 1937-1940(1993).

[8] T. Yamamoto, M. Takayoshi, S. Taiji, K. Kenji, T. Shigeru, T. Makoto. Group velocity dispersion measurement method using sinusoidally phase-modulated continuous wave light based on cyclic nature of optical waveform change by group velocity dispersion. Appl. Opt., 49, 5148-5156(2010).

[9] L. A. Neto, D. Erasme, N. Genay, P. Chanclou, Q. Deniel, F. Traore, T. Anfray, R. Hmadou, C. Aupetit-Berthelemot. Simple estimation of fiber dispersion and laser chirp parameters using the downhill simplex fitting algorithm. J. Lightwave Technol., 31, 334-342(2013).

[10] J. Wang, K. Petermann. Small signal analysis for dispersive optical fiber communication systems. J. Lightwave Technol., 10, 96-100(1992).

[11] T. Dennis, P. A. Williams. Chirp characterization of external modulators with finite extinction ratio using linear optical sampling. IEEE Photon. Technol. Lett., 22, 646-648(2010).

[12] J. Provost, F. Grillot. Measuring the chirp and the linewidth enhancement factor of optoelectronic devices with a Mach–Zehnder interferometer. IEEE Photon. J., 3, 476-488(2011).

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Shangjian Zhang, Xinhai Zou, Heng Wang, Yali Zhang, Heping Li, and Yong Liu. Fiber chromatic dispersion measurement with improved measurement range based on chirped intensity modulation[J]. Photonics Research, 2014, 2(4): B26

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