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A Bjarklev

Showing results (11-20 of 22) with videos related to

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Optics Letters|December 7, 2007
Analysis of air-guiding photonic bandgap fibersJ Broeng, S E Barkou, T Søndergaard, et al.
Optics Letters|October 22, 2009
Optimal design of single-cladded dispersion-compensating optical fibersA Bjarklev, T Rasmussen, O Lumholt, et al.
Applied Optics|August 21, 2010
Maximum gain in optical amplifier-based systems as determined from reflections and backscattering effectsT Rasmussen, A Bjarklev, J H Povisen, et al.
Optics Express|May 29, 2009
Predicting macrobending loss for large-mode area photonic crystal fibersM Nielsen, N Mortensen, M Albertsen, et al.
Optics Letters|October 14, 2009
Noise optimization of an Er-doped superfluorescent fiber sourceF B Pedersen, J H Povlsen, A Bjarklev, et al.
Optics Letters|January 15, 2004
Birefringence-induced splitting of the zero-dispersion wavelength in nonlinear photonic crystal fibersK P Hansen, A Petersson, J R Folkenberg, et al.
Optics Letters|May 27, 2006
Nonlinear polarization rotation in a dispersion-flattened photonic-crystal fiber for ultrawideband (>100 nm) all-optical wavelength conversion of 10 Gbit/s nonreturn-to-zero signalsC H Kwok, C W Chow, H K Tsang, et al.
Optics Letters|November 3, 2007
Confinement loss spectral behavior in hollow-core Bragg fibersM Foroni, D Passaro, F Poli, et al.
Optics Letters|September 25, 2009
Simple fiber-optic low-temperature sensor that uses microbending lossO Lumholt, A Bjarklev, S Dahl-Petersen, et al.
Optics Express|August 20, 2010
167 W, power scalable ytterbium-doped photonic bandgap fiber amplifier at 1178 nmC B Olausson, A Shirakawa, M Chen, et al.
Pageof 3

Showing results (11-20 of 22) with videos related to

Sort By:
Pageof 3
Optics Letters|December 7, 2007
Analysis of air-guiding photonic bandgap fibersJ Broeng, S E Barkou, T Søndergaard, et al.
Optics Letters|October 22, 2009
Optimal design of single-cladded dispersion-compensating optical fibersA Bjarklev, T Rasmussen, O Lumholt, et al.
Applied Optics|August 21, 2010
Maximum gain in optical amplifier-based systems as determined from reflections and backscattering effectsT Rasmussen, A Bjarklev, J H Povisen, et al.
Optics Express|May 29, 2009
Predicting macrobending loss for large-mode area photonic crystal fibersM Nielsen, N Mortensen, M Albertsen, et al.
Optics Letters|October 14, 2009
Noise optimization of an Er-doped superfluorescent fiber sourceF B Pedersen, J H Povlsen, A Bjarklev, et al.
Optics Letters|January 15, 2004
Birefringence-induced splitting of the zero-dispersion wavelength in nonlinear photonic crystal fibersK P Hansen, A Petersson, J R Folkenberg, et al.
Optics Letters|May 27, 2006
Nonlinear polarization rotation in a dispersion-flattened photonic-crystal fiber for ultrawideband (>100 nm) all-optical wavelength conversion of 10 Gbit/s nonreturn-to-zero signalsC H Kwok, C W Chow, H K Tsang, et al.
Optics Letters|November 3, 2007
Confinement loss spectral behavior in hollow-core Bragg fibersM Foroni, D Passaro, F Poli, et al.
Optics Letters|September 25, 2009
Simple fiber-optic low-temperature sensor that uses microbending lossO Lumholt, A Bjarklev, S Dahl-Petersen, et al.
Optics Express|August 20, 2010
167 W, power scalable ytterbium-doped photonic bandgap fiber amplifier at 1178 nmC B Olausson, A Shirakawa, M Chen, et al.
Pageof 3