Light confinement at a Dirac point in honeycomb-like lattice photonic crystal

Qiuping Mao; Kang Xie; Lei Hu; Qian Li; Wei Zhang; Haiming Jiang; Zhijia Hu; Erlei Wang

doi:10.1016/j.optcom.2016.10.003

Light confinement at a Dirac point in honeycomb-like lattice photonic crystal

Qiuping Mao, Kang Xie^*, Lei Hu, Qian Li, Wei Zhang, Haiming Jiang, Zhijia Hu, Erlei Wang

^*Corresponding author for this work

Aston Institute of Photonic Technologies (AiPT)

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

Abstract

Optical waveguides and cavities are important components among modern optical devices. Traditional optical cavities rely on total internal reflection or photonic bandgaps to achieve field confinement. Recently, a new type of trapped mode, the Dirac mode, has been reported to occur in triangular or honeycomb lattice photonic crystal. This novel localized mode is attribute to neither of the traditional light-guiding mechanisms and owns different characteristics. Here we report the discovery of the Dirac mode in honeycomb-like photonic crystal lattice. The Dirac mode occurs at a Dirac frequency, which is beyond the complete photonic bandgaps. It has a different algebraic-decay feature. Our discovery extends applicability of the Dirac mode in designing for optical devices.

Original language	English
Pages (from-to)	11-15
Number of pages	5
Journal	Optics Communications
Volume	384
Early online date	13 Oct 2016
DOIs	https://doi.org/10.1016/j.optcom.2016.10.003
Publication status	Published - 1 Feb 2017

Keywords

Algebraic-decay
Dirac mode
Field confinement
Photonic crystal

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10.1016/j.optcom.2016.10.003

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title = "Light confinement at a Dirac point in honeycomb-like lattice photonic crystal",

abstract = "Optical waveguides and cavities are important components among modern optical devices. Traditional optical cavities rely on total internal reflection or photonic bandgaps to achieve field confinement. Recently, a new type of trapped mode, the Dirac mode, has been reported to occur in triangular or honeycomb lattice photonic crystal. This novel localized mode is attribute to neither of the traditional light-guiding mechanisms and owns different characteristics. Here we report the discovery of the Dirac mode in honeycomb-like photonic crystal lattice. The Dirac mode occurs at a Dirac frequency, which is beyond the complete photonic bandgaps. It has a different algebraic-decay feature. Our discovery extends applicability of the Dirac mode in designing for optical devices.",

keywords = "Algebraic-decay, Dirac mode, Field confinement, Photonic crystal",

author = "Qiuping Mao and Kang Xie and Lei Hu and Qian Li and Wei Zhang and Haiming Jiang and Zhijia Hu and Erlei Wang",

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doi = "10.1016/j.optcom.2016.10.003",

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T1 - Light confinement at a Dirac point in honeycomb-like lattice photonic crystal

AU - Mao, Qiuping

AU - Xie, Kang

AU - Hu, Lei

AU - Li, Qian

AU - Zhang, Wei

AU - Jiang, Haiming

AU - Hu, Zhijia

AU - Wang, Erlei

PY - 2017/2/1

Y1 - 2017/2/1

N2 - Optical waveguides and cavities are important components among modern optical devices. Traditional optical cavities rely on total internal reflection or photonic bandgaps to achieve field confinement. Recently, a new type of trapped mode, the Dirac mode, has been reported to occur in triangular or honeycomb lattice photonic crystal. This novel localized mode is attribute to neither of the traditional light-guiding mechanisms and owns different characteristics. Here we report the discovery of the Dirac mode in honeycomb-like photonic crystal lattice. The Dirac mode occurs at a Dirac frequency, which is beyond the complete photonic bandgaps. It has a different algebraic-decay feature. Our discovery extends applicability of the Dirac mode in designing for optical devices.

AB - Optical waveguides and cavities are important components among modern optical devices. Traditional optical cavities rely on total internal reflection or photonic bandgaps to achieve field confinement. Recently, a new type of trapped mode, the Dirac mode, has been reported to occur in triangular or honeycomb lattice photonic crystal. This novel localized mode is attribute to neither of the traditional light-guiding mechanisms and owns different characteristics. Here we report the discovery of the Dirac mode in honeycomb-like photonic crystal lattice. The Dirac mode occurs at a Dirac frequency, which is beyond the complete photonic bandgaps. It has a different algebraic-decay feature. Our discovery extends applicability of the Dirac mode in designing for optical devices.

KW - Algebraic-decay

KW - Dirac mode

KW - Field confinement

KW - Photonic crystal

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JO - Optics Communications

JF - Optics Communications

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Light confinement at a Dirac point in honeycomb-like lattice photonic crystal

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Keywords

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