250 research outputs found
Data for "How to make the propagation time through an optical fiber fully insensitive to temperature variations"
Data for the manuscript:
Numkam Fokoua, E., and Slavik, R. (2017). How to make the propagation time through an optical fiber fully insensitive to temperature variations. Optica.</span
Dataset supporting the publication "End-capping hollow-core fibers with suppressed coupling into higher-order modes"
*This dataset supporting the publication:
Zhong, A., Ding, M., Numkam Fokoua, E., Zvanovec, S., Poletti, F., Komanec, M., & Slavík, R. (in press). End-capping hollow-core fibers with suppressed coupling into higher-order modes. IEEE Journal of Selected Topics in Quantum Electronics.
https://doi.org/10.1109/JSTQE.2024.3381797</span
Dataset for: Exceptional polarization purity in antiresonant hollow-core optical fibres
This dataset supports the paper:
Taranta, A., Numkam Fokoua, E., Abokhamis Mousavi, S. et al. Exceptional polarization purity in antiresonant hollow-core optical fibres. Nat. Photonics (2020). https://doi.org/10.1038/s41566-020-0633-x</span
Dataset for First demonstration of opposing thermal sensitivities in hollow core fibers with open and sealed ends
This dataset supports the publication:
R. Slavik, E.R. Numkam Fokoua, M. Bukhstab, Y. Chen,T.D. Bradley, S.R. Sandoghchi, M.N. Petrovich, F. Poletti, and D.J. Richardson,
First demonstration of opposing thermal sensitivities in hollow core fibers with open and sealed ends, Optics Letters
Uploaded Archive (ZIP) includes 12 data files that are purely numerical (.dat) and a README file.</span
Dataset for Temperature insensitive fiber interferometry
Data supporting the paper Zhu, Wenwu ; Numkam Fokoua, Eric ; Chen, Yong ; Bradley, Thomas ; Petrovich, Marco ; Poletti, Francesco ; Zhao, Mingshan ; Richardson, David ; Slavík, Radan. / Temperature insensitive fiber interferometry. In: Optics Letters. 2019</span
Data for '3D-Printed Polymer Antiresonant Waveguides for Short Reach Terahertz Applications'
This is the data for '3D-Printed Polymer Antiresonant Waveguides for Short Reach Terahertz Applications', by L.D. van Putten, J. Gorecki, E. Numkam Fokoua, V. Apostolopoulos and F. Poletti to be published in Applied Optics, 2018.
Data for Figure 5 and Figure 6b&c. Fig3 has all the data to calculate and plot the transmission spectrum in Figure 5. Fig4_1, Fig4_2, Fig4_3 can be used to plot the far fields as seen in figure 4. Z000-Z010 are the beam profiles shown in Fig4b.</span
Accurate modelling of hollow core photonic bandgap fibre
A modelling tool to accurately reproduce the performance of fabricated hollow-core photonic bandgap fibers from their SEM images is presented. This enables new understanding of the effect of cross-sectional distortions
Dataset for 'Towards high accuracy positioning in 5G via passive synchronization of base stations using thermally-insensitive optical fibers'
Dataset supporting a publication in IEEE Access journal:
Zhu W, Numkam Fokoua E, Chen Y, Bradley T, Sandoghchi SR, Ding M, Jasion G, Petrovich M, Poletti F, Zhao M, Richardson D, Slavík R. 2019. Towards high accuracy positioning in 5G via passive synchronization of base stations using thermally-insensitive optical fibers. IEEE Access. (in press)</span
Data for Optoelectronic Oscillator incorporating Hollow Core Photonic Bandgap Fiber
This dataset contains data (X and Y data with labels and units) that was used to plot the graphs in the paper U. S. Mutugala, J. Kim, T. D. Bradley, N. V. Wheeler, S. R. Sandoghchi, J. R. Hayes, E. Numkam Fokoua, F. Poletti, M. N. Petrovich, D. J. Richardson, and R. Slavík, "Optoelectronic oscillator incorporating hollow-core photonic bandgap fiber," Opt. Lett. 42, 2647-2650 (2017)
DOI:https://doi.org/10.1364/OL.42.002647</span
Data for Low-Loss and Low-Back-Reflection Hollow-Core to Standard Fiber Interconnection
This dataset contains data that was used to plot graphs in journal paper ' Low-Loss and Low-Back-Reflection Hollow-Core to Standard Fiber Interconnection'
Journal: Photonics Technology Letters
Authors: M. Komanec, D. Suslov, S. Zvánovec, Y. Chen, T. Bradley, S. R. Sandoghchi, E. R. Numkam Fokoua, G. T. Jasion, M. N. Petrovich, F. Poletti, D. J. Richardson, and R. Slavík
</span
- …
