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Optical and Quantum Electronics
Erschienen in: Optical and Quantum Electronics 9/2016

01.09.2016

Comparative theoretical study of polarising Panda-type and microstructured fibres for fibre-optic gyroscope

verfasst von: Alexander M. Kurbatov, Roman A. Kurbatov

Erschienen in: Optical and Quantum Electronics | Ausgabe 9/2016

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Abstract

Comparative study is fulfilled for different polarising fibres: Panda fibres with match-clad and depressed-clad W-profiles, along with microstructured fibres. Comparison is made for their spectral width of single-polarisation windows taking into account bending, and for their splice losses with conventional fibres. A new type of match clad fibre is also proposed polarising even without bending. It is shown that the optimal is W-fibre Panda. At the same time, truly broadband polarising microstructured fibres demonstrate enormously large splice losses, whereas those of them with relatively low splice losses could not be wound into the coil of reasonable size due to large bend losses.
Vorheriger Artikel Phase control of electromagnetically induced grating in a four-level atomic system
Nächster Artikel XPM Crosstalk Using V and W Band in SCM–WDM–HAN

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Literatur
Black, R.J., Bourbonnais, R.: Core-mode cutoff for finite-cladding lightguides. IEE Proc. 133, 377–384 (1986)
Burns, W.K., Chen, C.-L., Moeller, R.P.: Fiber-optic gyroscopes with broad-band sources. J. Lightwave Technol. 1, 98–105 (1983)ADSCrossRef
Carrara, S.L.A., Kim, B.Y., Shaw, H.J.: Bias drift reduction in polarization-maintaining fiber gyroscope. Opt. Lett. 12, 214–216 (1987)ADSCrossRef
Chen, D., Shen, L.: Highly birefringent elliptical-hole photonic crystal fibres with double defect. J. Lightwave Technol. 25, 2700–2705 (2007)ADSCrossRef
Chu, P.L., Sammut, R.A.: Analytical method for calculation of stresses and material birefringence in polarisation-maintaining optical fiber. J. Lightwave Technol. 2, 650–662 (1984)ADSCrossRef
Cordova, A., Patterson, R., Rahn, J., Lam, L., Rozelle, D.: Progress in navigation grade IFOG performance. Proc. of SPIE. 2837, 207–217 (1996)ADSCrossRef
Francois, P.L., Vassallo, C.: Finite cladding effects in W fibres: a new interpretation of leaky modes. Appl. Opt. 22, 3109–3120 (1983)ADSCrossRef
Guo, S., Wu, F., Albin, S., Tai, H., Rogowski, R.: Loss and dispersion analysis of microstructured fibres by finite-difference method. Opt. Express 12, 3341–3352 (2004)ADSCrossRef
Heilblum, M., Harris, J.H.: Analysis of curved optical waveguides by conformal transformation. IEEE J. Quantum Electron. 11, 75–83 (1975)ADSCrossRef
Hill, M.D., Alvarez, J.M., Hart, T., Gillooly, A., Wooler, J.P.F.: HiBi Single Polarizing HB-Z Zing™ Fibers for Fiber Optic Gyroscopes. Inertial Sensors and Systems, Karlsruhe (2012)
Jacobsen, W., Mayfield, J., Fournier, P., Bolte, D., Elmaola, H., Wang, Ch.-H., Drenzek, H., Soufiane, A.: Single-polarization fiber. US Patent no. 8,369,672 B2 (2013)
Jian, L., Maojin, Y., Feng, X., Meiling, L.: A kind of single-polarisation single-mode photonic crystal fibre. Proc. SPIE. 8120, 81200Z-1-81200Z-7 (2011)
Jones, E., Parker, W.J.: Bias reduction by polarisation dispersion in the fibre-optic gyroscope. Electron. Lett. 22, 54–56 (1986)ADSCrossRef
Ju, J., Jin, W., Demokan, M.S.: Design of single-polarisation single-mode photonic crystal fibre at 1.30 and 1.55 μm. J. Lightwave Technol. 24, 825–830 (2006)ADSCrossRef
Kintner, E.C.: Polarization control in optical-fiber gyroscopes. Opt. Lett. 6, 154–156 (1981)ADSCrossRef
Kubota, H., Kawanishi, S., Koyanagi, S., Tanaka, M., Yamaguchi, S.: Absolutely single polarisation photonic crystal fibre. IEEE Photon. Technol. Lett. 16, 182–184 (2004)ADSCrossRef
Kurbatov, A.M.: Single mode single polarisation fibre for polarisation modal filter. RU Patent no. 2040493 (1990)
Kurbatov, R.A.: Mathematical simulation of single-mode polarizing W-fibre (in Russian). Ph.D. thesis (2004)
Kurbatov, A.M., Kurbatov, R.A.: New optical W-fibre Panda for fibre optic gyroscope sensitive coil. Tech. Phys. Lett. 36, 789–791 (2010)ADSCrossRef
Kurbatov, A.M., Kurbatov, R.A.: Suppression of polarisation errors in fibre-ring interferometer by polarising fibres. Tech. Phys. Lett. 37, 397–400 (2011a)ADSCrossRef
Kurbatov, A.M., Kurbatov, R.A.: Fibre polariser based on W-lightguide Panda. Tech. Phys. Lett. 37, 626–629 (2011b)CrossRef
Kurbatov, A.M., Kurbatov, R.A.: Polarisation and modal filters based on W-fibres Panda for fibre-optic gyroscopes and high-power fibre lasers. Opt. Eng. 52, 035006-1–035006-9 (2013)ADSCrossRef
Lu, D., Zhang, X., Chang, M., Wang, G., Pan, L., Zhuang, S.: Endlessly single-polarisation single-mode holey fibres with low confinement loss. Opt. Lett. 38, 2915–2918 (2013)ADSCrossRef
Messerly, M.J., Onstott, J.R., Mikkelson, R.C.: A broad-band single polarisation optical fibre. J. Lightwave Technol. 9, 817–820 (1991)ADSCrossRef
Murao, T., Saitoh, K., Koshiba, M.: Detailed theoretical investigation of bending properties in solid-core photonic bandgap fibers. Opt. Express 17, 7615–7629 (2009)ADSCrossRef
Nielsen, M.D., Mortensen, N.A., Albertsen, M., Folkenberg, J.R., Bjarklev, A., Bonacinni, D.: Predicting macrobending loss for large-mode area photonic crystal fibres. Opt. Express 12, 1775–1779 (2004)ADSCrossRef
Okamoto, K., Hosaka, T., Edahiro, T.: Stress analysis of optical fibres by a finite element method. IEEE J. Quantum Electron. 17, 2123–2129 (1981)ADSCrossRef
Okamoto, K., Takada, K., Kawachi, M., Noda, J.: All-Panda-fibre gyroscope with long-term stability. Electron. Lett. 20, 429–430 (1984)CrossRef
Saitoh, K., Koshiba, M.: Numerical modeling of photonic crystal fibres. J. Lightwave Technol. 23, 3580–3590 (2005)ADSCrossRef
Simpson, J.R., Stolen, R.H., Sears, F.M., Pleibel, W., MacChesney, J.B., Howard, R.E.: A single-polarisation fiber. J. Lightwave Technol. 1, 370–373 (1983)ADSCrossRef
Snyder, A.W., Young, W.R.: Modes of optical waveguides. J. Opt. Soc. Am. 68, 297–309 (1978)ADSCrossRef
Stern, M.S.: Semivectorial polarised finite difference method for optical waveguides with arbitrary index profiles. IEE Proc. 135, 56–63 (1988)
Tajima, K., Sasaki, Y.: Transmission loss of a 125-μm diameter PANDA fibre with circular stress-applying parts. J. Lightwave Technol. 7, 674–679 (1989)ADSCrossRef
Varnham, M.P., Payne, D.N., Birch, R.D., Tarbox, E.J.: Bend behaviour of polarising optical fibres. Electron. Lett. 19, 679–680 (1983)ADSCrossRef
Wang, C.-H., Jacobsen, B., Bolte, D., Fournier, P., Mayfield, J., Soufiane, A.: Highly polarizing single-mode optical fiber for sensing applications. Proc. SPIE. 7503, 75034F-1–75034F-4 (2009)CrossRef
Zhu, Z., Brown, T.G.: Full-vectorial finite-difference analysis of microstructured optical fibres. Opt. Express 10, 853–864 (2002)ADSCrossRef
Metadaten
Titel
Comparative theoretical study of polarising Panda-type and microstructured fibres for fibre-optic gyroscope
verfasst von
Alexander M. Kurbatov
Roman A. Kurbatov
Publikationsdatum
01.09.2016
Verlag
Springer US
Erschienen in
Optical and Quantum Electronics / Ausgabe 9/2016
Print ISSN: 0306-8919
Elektronische ISSN: 1572-817X
DOI
https://doi.org/10.1007/s11082-016-0714-8

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