Listing of scientific papers, technical journals, periodicals, and conference publications which reference the use of OptiGrating.
[1] M. Śmietana, M. Myśliwiec, P. Mikulic, B. S. Witkowski, and W. J. Bock, “Capability for fine tuning of the refractive index sensing properties of long-period gratings by atomic layer deposited Al2O3 overlays,” Sensors, vol. 13, no. 12, pp. 16372–16383, 2013.
[2] M. S. Wartak, Computational Photonics: An Introduction with MATLAB. Cambridge University Press, 2013.
[3] M. Sharma and S. Pal, “Design and analysis of nano-deep corrugated waveguide grating-based dual-resonant filters in visible and infra-red regions,” Optik-International Journal for Light and Electron Optics, vol. 124, no. 18, pp. 3562–3566, 2013.
[4] M. Smietana, W. J. Bock, and P. Mikulic, “Effect of high-temperature plasma-deposited nano-overlays on the properties of long-period gratings written with UV and electric arc in non-hydrogenated fibers,” Measurement Science and Technology, vol. 24, no. 9, p. 094016, 2013.
[5] M. My$\pm$liwieca, J. Grochowskia, K. Krogulskia, P. Mikulicb, and W. J. Bockb, “Effect of Wet Etching of Arc-Induced Long-Period Gratings on Their Refractive Index Sensitivity,” Acta Physica Polonica, vol. 124, pp. 521–524, 2013.
[6] W. Zhou, D. J. Mandia, M. B. Griffiths, S. T. Barry, and J. Albert, “Effective Permittivity of Ultrathin Chemical Vapor Deposited Gold Films on Optical Fibers at Infrared Wavelengths,” The Journal of Physical Chemistry C, vol. 118, no. 1, pp. 670–678, 2013.
[7] J. Lee, C.-H. Lee, K. T. Kim, and J. Park, “Fabrication and Mode Coupling of Long-Period Fiber Grating by Winding a Wire Around an Optical Fiber Fixed to a Cylindrical Metal Rod,” in Current Trends in Short and Long-period Fiber Gratings, 2013.
[8] M. Smietana, M. Koba, S. Tripathi, P. Mikulic, and W. J. Bock, “Institute of Microelectronics and Optoelectronics, Warsaw University of Technology, Warsaw, Poland,” inSensing Technology (ICST), 2013 Seventh International Conference on, 2013, pp. 665–668.
[9] N. Chandel, U. Tiwari, N. Panwar, R. Kaler, R. Bhatnagar, and P. Kapur, “Long Period Fiber Grating Humidity Sensor with Gelatin/Cobalt Chloride coating,” Sensors Journal, IEEE, vol. 13, no. 11, pp. 4139–4140, 2013.
[10] C. Cuadrado-Laborde, A. Carrascosa, A. Díez, J. L. Cruz, and M. V. Andres, “Photonic fractional Fourier transformer with a single dispersive device,” Optics express, vol. 21, no. 7, pp. 8558–8563, 2013.
[11] T. Guo, L. Shang, F. Liu, C. Wu, B.-O. Guan, H.-Y. Tam, and J. Albert, “Polarization-maintaining fiber-optic-grating vector vibroscope,” Optics letters, vol. 38, no. 4, pp. 531–533, 2013.
[12] T. Mizunami, S. Hirose, T. Yoshinaga, and K. Yamamoto, “Power-stabilized tunable narrow-band source using a VCSEL and an EDFA for FBG sensor interrogation,”Measurement Science and Technology, vol. 24, no. 9, p. 094017, 2013.
[13] N. F. Naim, M. S. Ab-Rahman, H. A. Bakarman, and A. Bakar, “Real-Time Monitoring in Passive Optical Networks Using a Superluminescent LED With Uniform and Phase-Shifted Fiber Bragg Gratings,” Journal of Optical Communications and Networking, vol. 5, no. 12, pp. 1425–1430, 2013.
[14] M. Smietana, A. K. Debowska, P. Mikulic, and W. J. Bock, “Refractive index sensing with high temperature nano-coated electric arc-induced long-period gratings working at dispersion turning point,” in Microoptics Conference (MOC), 2013 18th, 2013, pp. 1–2.
[15] B. J. C. Birch, “Simulation of fibre Bragg grating (FBG) reflection spectrums using OptiGrating,” University of Southern Queensland, 2013.
[16] B. Bai, Y. Guo, X. Zhao, J. Huo, and T. Sun, “Temperature and Strain Characteristic Analysis of Fiber Bragg Grating Sensor,” in Proceedings of the 2012 International Conference on Information Technology and Software Engineering, 2013, pp. 641–647.