A photonic crystal fiber splice with a standard single mode fiber

Authors

  • Michał Murawski Military University of Technology
  • Leszek R. Jaroszewicz Military University of Technology
  • Karol Stasiewicz Military University of Technology

DOI:

https://doi.org/10.4302/photon.%20lett.%20pl.v1i3.60

Abstract

We report on the optimization of a fused splice between a photonic crystal fiber (PCF) with a standard single mode fiber (SMF) made by the filament fusion with continuous laser illumination. For the SMF 28 connection with a PCF having a similar mode field diameter splice losses are lower than 0.40 dB in comparison with the reported dependences in a spectral range of 1.51-1.63um. Based on the results obtained two aspects of splice are discussed: the mentioned above wavelength dependences as well as an observed nonreciprocal phenomenon according to light propagation through the splice. The discussed data have shown that such a SMF-PCF splice is suitable for the construction of a patch cord for measurement devices.

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References:
  1. B. Bourliaguet et al."Microstructured fiber splicing", Opt. Express 11, 3412 (2003).[CrossRef]
  2. P.J. Bennet et al."Toward practical holey fiber technology: fabrication, splicing, modeling, and characterization", Opt. Lett. 24, 1203 (1999).[CrossRef]
  3. J.T. Lizier, G.E. Town, "Splice losses in holey optical fibers", IEEE Photon. Techn. Lett. 13, 794 (2001).[CrossRef]
  4. R.K Sinha, K.V. Sailendra, "Estimation of splice loss in photonic crystal fibers ", SPIE 4655, 296 (2002).[CrossRef]
  5. A.D. Yablon, R.T. Bise, "Low-loss high-strength microstructured fiber fusion splices using GRIN fiber lenses", IEEE Photon. Techn. Lett. 17, 180120 (2005).[CrossRef]
  6. L. Jin W. Xiao, M.S. Demokan, "Fusion splicing small-core photonic crystal fibers and single-mode fibers by repeated arc discharges", Opt. Lett. 32, 115 (2007).[CrossRef]
  7. J.T. Kristensen et al. "Low-loss polarization-maintaining fusion splicing of single-mode fibers and hollow-core photonic crystal fibers, relevant for monolithic fiber laser pulse compression", Opt. Express 16, 9986 (2008).[CrossRef]
  8. L. Dong et al. "Highly nonlinear silica suspended core fibers", Opt. Express 16, 16423 (2008).[CrossRef]
  9. Corning SMF-28TM CPC6 Single-Mode Optical Fiber, Product Information, http://www.corningfiber.com
  10. Large Mode Area Photonic Crystal Fiber LMA-8, Product Information, http://www.crystal-fibre.com
  11. L.R. Jaroszewicz, M. Murawski, K. Stasiewicz, and P. Marć, Proc. SPIE 7503, 214 (2009) in press

Author Biographies

Michał Murawski, Military University of Technology

Institute of Technical Physics, M.Sc. Eng.

Leszek R. Jaroszewicz, Military University of Technology

Institute of Technical Physics, Prof. PhD., D.Sc., Eng.

Karol Stasiewicz, Military University of Technology

Institute of Technical Physics, M.Sc. Eng.

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Published

2009-09-30

How to Cite

[1]
M. Murawski, L. R. Jaroszewicz, and K. Stasiewicz, “A photonic crystal fiber splice with a standard single mode fiber”, Photonics Lett. Pol., vol. 1, no. 3, pp. pp. 115–117, Sep. 2009.

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Articles