Resonant coupling of near-infrared radiation to photonic band structure waveguides

VN Astratov; IS Culshaw; RM Stevenson; DM Whittaker; MS Skolnick; Thomas Fraser Krauss; RM De La Rue

Resonant coupling of near-infrared radiation to photonic band structure waveguides

VN Astratov, IS Culshaw, RM Stevenson, DM Whittaker, MS Skolnick, Thomas Fraser Krauss, RM De La Rue

School of Physics and Astronomy

Research output: Contribution to journal › Article › peer-review

Abstract

Sharp resonance features are observed in the polarized reflectivity spectra of semiconductor photonic crystals fabricated by deep periodic patterning of AlGaAs surface waveguides. Both one- (1-D) and two-dimensional (2-D) lattices are studied by angular dependent reflectivity. By comparison with theory me show that the sharp features in reflectivity arise from resonant coupling of the external radiation to the folded band structure of the photonic crystal waveguides. Wavevector selective coupling to "heavy photon" states at the edge of the photonic Brillouin zone is demonstrated for the 1-D lattices. In the case of the 2-D lattices me observe polarization mixing of the photonic bands. Theoretical reflectivity spectra were obtained from a numerical solution of Maxwells equations for the patterned waveguide and were found to be in very good agreement with experiment.

Original language	English
Pages (from-to)	2050-2057
Number of pages	8
Journal	Journal of Lightwave Technology
Volume	17
Issue number	11
Publication status	Published - Nov 1999

Keywords

photonic band structures
photonic crystals
resonance
reflectivity
waveguide
SEMICONDUCTOR WAVE-GUIDE
GAP STRUCTURES
WAVELENGTHS
REFLECTION
MODES

Cite this

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title = "Resonant coupling of near-infrared radiation to photonic band structure waveguides",

abstract = "Sharp resonance features are observed in the polarized reflectivity spectra of semiconductor photonic crystals fabricated by deep periodic patterning of AlGaAs surface waveguides. Both one- (1-D) and two-dimensional (2-D) lattices are studied by angular dependent reflectivity. By comparison with theory me show that the sharp features in reflectivity arise from resonant coupling of the external radiation to the folded band structure of the photonic crystal waveguides. Wavevector selective coupling to {"}heavy photon{"} states at the edge of the photonic Brillouin zone is demonstrated for the 1-D lattices. In the case of the 2-D lattices me observe polarization mixing of the photonic bands. Theoretical reflectivity spectra were obtained from a numerical solution of Maxwells equations for the patterned waveguide and were found to be in very good agreement with experiment.",

keywords = "photonic band structures, photonic crystals, resonance, reflectivity, waveguide, SEMICONDUCTOR WAVE-GUIDE, GAP STRUCTURES, WAVELENGTHS, REFLECTION, MODES",

author = "VN Astratov and IS Culshaw and RM Stevenson and DM Whittaker and MS Skolnick and Krauss, {Thomas Fraser} and {De La Rue}, RM",

year = "1999",

month = nov,

language = "English",

volume = "17",

pages = "2050--2057",

journal = "Journal of Lightwave Technology",

issn = "0733-8724",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

number = "11",

}

TY - JOUR

T1 - Resonant coupling of near-infrared radiation to photonic band structure waveguides

AU - Astratov, VN

AU - Culshaw, IS

AU - Stevenson, RM

AU - Whittaker, DM

AU - Skolnick, MS

AU - Krauss, Thomas Fraser

AU - De La Rue, RM

PY - 1999/11

Y1 - 1999/11

N2 - Sharp resonance features are observed in the polarized reflectivity spectra of semiconductor photonic crystals fabricated by deep periodic patterning of AlGaAs surface waveguides. Both one- (1-D) and two-dimensional (2-D) lattices are studied by angular dependent reflectivity. By comparison with theory me show that the sharp features in reflectivity arise from resonant coupling of the external radiation to the folded band structure of the photonic crystal waveguides. Wavevector selective coupling to "heavy photon" states at the edge of the photonic Brillouin zone is demonstrated for the 1-D lattices. In the case of the 2-D lattices me observe polarization mixing of the photonic bands. Theoretical reflectivity spectra were obtained from a numerical solution of Maxwells equations for the patterned waveguide and were found to be in very good agreement with experiment.

AB - Sharp resonance features are observed in the polarized reflectivity spectra of semiconductor photonic crystals fabricated by deep periodic patterning of AlGaAs surface waveguides. Both one- (1-D) and two-dimensional (2-D) lattices are studied by angular dependent reflectivity. By comparison with theory me show that the sharp features in reflectivity arise from resonant coupling of the external radiation to the folded band structure of the photonic crystal waveguides. Wavevector selective coupling to "heavy photon" states at the edge of the photonic Brillouin zone is demonstrated for the 1-D lattices. In the case of the 2-D lattices me observe polarization mixing of the photonic bands. Theoretical reflectivity spectra were obtained from a numerical solution of Maxwells equations for the patterned waveguide and were found to be in very good agreement with experiment.

KW - photonic band structures

KW - photonic crystals

KW - resonance

KW - reflectivity

KW - waveguide

KW - SEMICONDUCTOR WAVE-GUIDE

KW - GAP STRUCTURES

KW - WAVELENGTHS

KW - REFLECTION

KW - MODES

UR - http://www.scopus.com/inward/record.url?scp=0033321486&partnerID=8YFLogxK

M3 - Article

SN - 0733-8724

VL - 17

SP - 2050

EP - 2057

JO - Journal of Lightwave Technology

JF - Journal of Lightwave Technology

IS - 11

ER -

Resonant coupling of near-infrared radiation to photonic band structure waveguides

Abstract

Keywords

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