Reyhaneh Jannesari, Thomas Grille, Bernhard Jakoby,
"Highly sensitive fluid sensing due to slow light in pillar-based photonic crystal ring resonators"
, in TM - Technisches Messen, Vol. 85, 2018, ISSN: 2196-7113
Original Titel:
Highly sensitive fluid sensing due to slow light in pillar-based photonic crystal ring resonators
Sprache des Titels:
Englisch
Original Kurzfassung:
A design for a high quality factor photonic crystal ring resonator (PCRR) is presented. The PCRR is based
on pillar type photonic crystals, which consist of a hexagonal array of silicon rods. The cavity is created by removing elements from the regular photonic crystal (PhC) grid.
Achieving strong confnement of light intensity in the low
index region is the advantage of this PCRR. In that manner, the interaction of light and analyte, which can be a
liquid or a gas, will be enhanced. The high quality factor
of the cavity (Q = 1.0229 × 105), along with strong overlap between the feld of the resonant mode and the analyte as well as the low group velocity of PCRR modes yield
enhanced light-matter interaction. An enhancement factor of ? = 2.127 × 104 compared to the bulk light absorption in a homogenous material provides the potential for
highly sensitive gas detection with a photonic crystal ring
resonator