Band gaps and cavity modes in dual phononic and photonic strip waveguides | Zendy

Y. Pennec | Zendy; B. Djafari Rouhani | Zendy; C. Li | Zendy; José M. Escalante | Zendy; Alejandro Martı́nez | Zendy; Sarah Benchabane | Zendy; Vincent Laude | Zendy; N. Papanikolaou | Zendy

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Band gaps and cavity modes in dual phononic and photonic strip waveguides

Author(s) -

Y. Pennec,

B. Djafari Rouhani,

C. Li,

José M. Escalante,

Alejandro Martı́nez,

Sarah Benchabane,

Vincent Laude,

N. Papanikolaou

Publication year - 2011

Publication title -

aip advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.421

H-Index - 58

ISSN - 2158-3226

DOI - 10.1063/1.3675799

Subject(s) - photonic crystal , photonics , polarization (electrochemistry) , band gap , waveguide , optics , materials science , optoelectronics , acoustic metamaterials , photon , phonon , silicon , physics , photonic integrated circuit , condensed matter physics , chemistry

We discuss theoretically the simultaneous existence of phoxonic, i.e., dual phononic and photonic, band gaps in a periodic silicon strip waveguide. The unit-cell of this one-dimensional waveguide contains a hole in the middle and two symmetric stubs on the sides. Indeed, stubs and holes are respectively favorable for creating a phononic and a photonic band gap. Appropriate geometrical parameters allow us to obtain a complete phononic gap together with a photonic gap of a given polarization and symmetry. The insertion of a cavity inside the perfect structure provides simultaneous confinement of acoustic and optical waves suitable to enhance the phonon-photon interaction

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