Analysis of air-guiding photonic bandgap fibers.
暂无分享,去创建一个
A. Bjarklev | J. Broeng | T. Søndergaard | S. E. Barkou | A Bjarklev | J Broeng | S E Barkou | T Søndergaard
[1] A. Bjarklev,et al. Photonic Crystal Fibers: A New Class of Optical Waveguides , 1999 .
[2] Knight,et al. Photonic band gap guidance in optical fibers , 1998, Science.
[3] Thomas Søndergaard,et al. Waveguidance by the photonic bandgap effect in optical fibres , 1999 .
[4] Timothy A. Birks,et al. Highly increased photonic band gaps in silica/air structures , 1998 .
[5] David J. Richardson,et al. Holey optical fibers: an efficient modal model , 1999 .
[6] Anders Bjarklev,et al. Polarization properties of photonic bandgap fibers , 2000, Optical Fiber Communication Conference. Technical Digest Postconference Edition. Trends in Optics and Photonics Vol.37 (IEEE Cat. No. 00CH37079).
[7] Thomas Søndergaard,et al. Two-dimensional Kagome structure, fundamental hexagonal photonic crystal configuration , 1999 .
[8] P Andrés,et al. Full-vector analysis of a realistic photonic crystal fiber. , 1999, Optics letters.
[9] Mitsunobu Miyagi,et al. High-power hollow fibers , 1998, Other Conferences.
[10] Knight,et al. Single-Mode Photonic Band Gap Guidance of Light in Air. , 1999, Science.
[11] J. Joannopoulos,et al. Accurate theoretical analysis of photonic band-gap materials. , 1993, Physical review. B, Condensed matter.