Characteristics of strain-sensitive photonic crystal cavities in a flexible substrate

You Shin No, Jae Hyuck Choi, Kyoung Ho Kim, Hong Gyu Park

Research output: Contribution to journalArticlepeer-review

3 Citations (Scopus)


High-index semiconductor photonic crystal (PhC) cavities in a flexible substrate support strong and tunable optical resonances that can be used for highly sensitive and spatially localized detection of mechanical deformations in physical systems. Here, we report theoretical studies and fundamental understandings of resonant behavior of an optical mode excited in strain-sensitive rod-type PhC cavities consisting of high-index dielectric nanorods embedded in a low-index flexible polymer substrate. Using the three-dimensional finitedifference time-domain simulation method, we calculated two-dimensional transverseelectric- like photonic band diagrams and the three-dimensional dispersion surfaces near the first Gamma;-point band edge of unidirectionally strained PhCs. A broken rotational symmetry in the PhCs modifies the photonic band structures and results in the asymmetric distributions and different levels of changes in normalized frequencies near the first Gamma;-point band edge in the reciprocal space, which consequently reveals strain-dependent directional optical losses and selected emission patterns. The calculated electric fields, resonant wavelengths, and quality factors of the band-edge modes in the strained PhCs show an excellent agreement with the results of qualitative analysis of modified dispersion surfaces. Furthermore, polarizationresolved time-averaged Poynting vectors exhibit characteristic dipole-like emission patterns with preferentially selected linear polarizations, originating from the asymmetric band structures in the strained PhCs.

Original languageEnglish
Pages (from-to)26119-26128
Number of pages10
JournalOptics Express
Issue number23
Publication statusPublished - 2016 Nov 14

Bibliographical note

Publisher Copyright:
© 2016 Optical Society of America.

ASJC Scopus subject areas

  • Atomic and Molecular Physics, and Optics


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