posted on 2018-12-03, 15:09authored byOtto L. J. Pursiainen, Jeremy J. Baumberg, Kevin M. RyanKevin M. Ryan, Josef Bauer, Holjer Winkler, Benjamin Viel, Tilmann Ruhl
A promising fabrication route to produce absorbing flexible photonic crystals is presented, which
exploits self-assembly during the shear processing of multi-shelled polymer spheres. When
absorbing material is incorporated in the interstitial space surrounding high-refractive-index
spheres, a dramatic enhancement in the transmission edge on the short-wavelength side of the band
gap is observed. This effect originates from the shifting optical field spatial distribution as the
incident wavelength is tuned around the band gap, and results in a contrast up to 100 times better
than similar but nonabsorbing photonic crystals. An order-of-magnitude improvement in strain
sensitivity is shown, suggesting the use of these thin films in photonic sensors.
History
Publication
Applied Physics Letters;87, 101902
Publisher
American Institute of Physics
Note
peer-reviewed
Rights
Copyright (2005) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics