Comparison of system penalties from first- and multiorder polarization-mode dispersion

Boroditsky, M.; Cornick, K.E.; Antonelli, Cristian; Brodsky, Michael; Dods, S.D.; Frigo, N.J.; Magill, Peter

doi:10.1109/lpt.2005.850858

Cited by 29 publications

(5 citation statements)

References 7 publications

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“…It has been shown [8], that the PMD-induced OSNR penalty is strongly correlated to the component of the PMD vector perpendicular to the input state of polarization vector, which we denote by The stochastic equation for F_L is exactly the same Omstein-Uhlenbeck process of Eq. (2) but in two dimensions and all the results presented so far hold if we assume (f_ (t) * r (s)) = 2/3 (f(t)(* f(s)) .…”

Section: Ymentioning

confidence: 99%

A simple analytical model for PMD temporal evolution

Antonelli

Mecozzi

Brodsky³

et al. 2006

2006 Optical Fiber Communication Conference and the National Fiber Optic Engineers Conference

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Section: Ymentioning

confidence: 99%

A simple analytical model for PMD temporal evolution

Antonelli

Mecozzi

Brodsky³

et al. 2006

2006 Optical Fiber Communication Conference and the National Fiber Optic Engineers Conference

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“…The wavelength-parallel polarimeter has been successfully applied to monitor frequency-dependent states of polarization (polarization string lengths) in a commercial 10 Gbit=s WDM optical transmission system [6]. This experiment demonstrated a tight correlation between the string length [7] and PMD-induced bit error rates, thereby providing evidence for polarization string length as an effective parameter for in-service PMD monitoring. Our wavelength-parallel polarimeter has also been employed successfully in experiments to demonstrate all-order PMD compensation [8,9].…”

Section: Introductionmentioning

confidence: 98%

Polarization mode dispersion spectrum measurement via high-speed wavelength-parallel polarimetry

Wang

Miao

et al. 2009

Appl. Opt.

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We report experiments in which wavelength-parallel spectral polarimetry technology is used for measurement of the frequency-dependent polarization mode dispersion (PMD) vector. Experiments have been performed using either a grating spectral disperser, configured to provide 13.6 GHz spectral resolution over a 14 nm optical bandwidth, or a virtually imaged phased array spectral disperser, configured for 1.6 GHz spectral resolution over a 200 GHz band. Our results indicate that the spectral polarimetry data obtained via this approach are of sufficient quality to permit accurate extraction of the PMD spectrum. The wavelength-parallel spectral polarimetry approach allows data acquisition within a few milliseconds.

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“…These studies were carried out [7][8][9] to evaluate the bit error rate (BER) performance of OCDMA considering only the effect of group velocity dispersion (GVD). It is well known that polarization mode dispersion (PMD) severely degrades the BER performance of optical fiber communication at high bit rate [10][11][12][13][14][15][16][17][18][19] due to differential group delay between two principal states of polarization which causes spreading and overlapping of bits. In case of OCDMA system, it is believed that the BER performance will degrade more by the PMD due to transmission of short duration chip.…”

Section: Introductionmentioning

confidence: 99%

Effect of Polarization Mode Dispersion on the BER Performance of Optical CDMA

Islam¹,

Islam²

2012

JNW

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In this paper, impact of polarization mode dispersion (PMD) on the bit error rate (BER) performance of direct sequence optical code division multiple access with in-line optical amplifiers is analytically investigated. Intensity modulation direct detection technique is employed in optical correlator receiver. Optical orthogonal codes are used as address sequence. The system BER performance is determined in presence of PMD and different noises induced from receiver, optical amplifiers, and multiple access interference. The power penalty suffered by the system is evaluated at BER of 10^-9. It is found that the BER performance of the proposed system degraded more at high chip rate, chirp parameter and long fiber length due to the effect of PMD. Further, the BER performance of the proposed system is studied in presence of PMD compensation with frequency advanced higher order PMD vectors. The results demonstrate that the system BER performance is improved significantly for a particular fiber length and third-order PMD compensation technique shows better performance compared to first-, and second-order compensations.

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Comparison of system penalties from first- and multiorder polarization-mode dispersion

Cited by 29 publications

References 7 publications

A simple analytical model for PMD temporal evolution

A simple analytical model for PMD temporal evolution

Polarization mode dispersion spectrum measurement via high-speed wavelength-parallel polarimetry

Effect of Polarization Mode Dispersion on the BER Performance of Optical CDMA

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