Resonant Reflection From Cylindrical Grating-Waveguide Under Holistic Excitation

• Published in: IEEE photonics journal Vol. 12; no. 2; pp. 1 - 11
• Main Authors: Koussi, Erieta Katerina, Bruhier, Hugo, Higuita, M. A. Usuga, Verrier, Isabelle, Veillas, Colette, Kampfe, Thomas, Reynaud, Stephanie, Crespo-Monteiro, Nicolas, Parriaux, Olivier, Jourlin, Yves
• Format: Journal Article
• Language: English
• Published: Piscataway IEEE 01.04.2020; The Institute of Electrical and Electronics Engineers, Inc. (IEEE); Institute of Electrical and Electronics Engineers (IEEE)
• Subjects: Coordinate transformations; Corrugated waveguides; Coupled modes; Coupling; Couplings; Cylindrical resonant grating; Cylindrical waves; Electron tubes; Gratings; Optical waveguides; Optics; Photoresists; Physics; Planar waveguides; Plane waves; Resists; Silicon compounds; Sol-gel processes; Titanium dioxide; Wave excitation; Wave reflection
• ISSN: 1943-0655; 1943-0655; 1943-0647
• DOI: 10.1109/JPHOT.2020.2966146

The phenomenon of resonant reflection from a grating-coupled waveguide mode is conceptually, technologically, and experimentally transposed from a planar corrugated waveguide structure under plane wave excitation to a circularly symmetrical waveguide at the inner wall of a tube under cylindrical wave excitation. The mode coupling element is an azimuthally periodic wall corrugation having an integer number of lines parallel to the tube axis. The grating is defined by diffractive coordinate transform of a radial grating phase-mask transverse to the tube axis under axial beam exposure onto a photoresist-coated TiO 2 sol-gel wall-waveguide. The holistic excitation of a waveguide mode is achieved by transforming a broad spectrum, centered axial incident beam into a cylindrical wave by a centered, 90° apex reflective cone. The expected resonantly reflected cylindrical wave at the mode-coupling wavelength is in turn transformed back into an axial beam by the cone. TE resonant reflection is demonstrated experimentally.