Propagation dynamic of a Gaussian in the inverted nonlinear photonic crystals

Junhong Deng; Jingfeng Liu; Suiyan Tan; Zhihong Huang; Yongyao Li

doi:10.1016/j.ijleo.2014.01.107

Propagation dynamic of a Gaussian in the inverted nonlinear photonic crystals

Junhong Deng, Jingfeng Liu^*, Suiyan Tan, Zhihong Huang, Yongyao Li

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Journal article › peer-review

3 Citations (Scopus)

Abstract

In this work, we study the evolution of a Gaussian beam inside a one-dimensional inverted nonlinear photonic crystals (INPC) with a Kerr nonlinearity. The INPC is a kind of virtual crystals which is generated by the optical induction via the electromagnetically induced transparency (EIT). The propagation dynamics of the Gaussian with different total power are identified. Four types of propagation behavior are found. They are collapse beam, breather beam, soliton and symmetry-breaking beam, respectively. The border between these four behavior types are given. For symmetry-breaking beam, an asymmetric profile of the beam is evolving from the symmetry Gaussian, which can be termed as a kind of dynamical symmetry breaking (DSB). The influences on the appearance of the symmetry breaking point are studied by varying input parameters of the Gaussian. The results of this work are both suitable in nonlinear optics and Bose-Einstein condensate (BEC).

Original language	English
Pages (from-to)	4088-4091
Number of pages	4
Journal	Optik
Volume	125
Issue number	15
DOIs	https://doi.org/10.1016/j.ijleo.2014.01.107
Publication status	Published - Aug 2014

User-Defined Keywords

Dynamical symmetry breaking
Electromagnetically induced transparency
Gaussian beam
Inverted nonlinear photonic crystals
Propagation dynamics

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10.1016/j.ijleo.2014.01.107

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title = "Propagation dynamic of a Gaussian in the inverted nonlinear photonic crystals",

abstract = "In this work, we study the evolution of a Gaussian beam inside a one-dimensional inverted nonlinear photonic crystals (INPC) with a Kerr nonlinearity. The INPC is a kind of virtual crystals which is generated by the optical induction via the electromagnetically induced transparency (EIT). The propagation dynamics of the Gaussian with different total power are identified. Four types of propagation behavior are found. They are collapse beam, breather beam, soliton and symmetry-breaking beam, respectively. The border between these four behavior types are given. For symmetry-breaking beam, an asymmetric profile of the beam is evolving from the symmetry Gaussian, which can be termed as a kind of dynamical symmetry breaking (DSB). The influences on the appearance of the symmetry breaking point are studied by varying input parameters of the Gaussian. The results of this work are both suitable in nonlinear optics and Bose-Einstein condensate (BEC).",

keywords = "Dynamical symmetry breaking, Electromagnetically induced transparency, Gaussian beam, Inverted nonlinear photonic crystals, Propagation dynamics",

author = "Junhong Deng and Jingfeng Liu and Suiyan Tan and Zhihong Huang and Yongyao Li",

note = "We appreciate a valuable discussion from Prof. Xin Sun (Fudan Uni., Shanghai, China) and Prof. Boris A. Malomed (Tel Aviv Univ., Tel Aviv, Israel). This work was supported by Chinese Agencies (Grant No. 11104083, 11204089, 11205063), by the German-Israel Foundation through Grant No. I-1024-2.7/2009, and by the Tel Aviv University in the framework of the “matching” scheme. Publisher copyright: {\textcopyright} 2014 Elsevier GmbH. All rights reserved.",

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doi = "10.1016/j.ijleo.2014.01.107",

language = "English",

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AU - Deng, Junhong

AU - Liu, Jingfeng

AU - Tan, Suiyan

AU - Huang, Zhihong

AU - Li, Yongyao

N1 - We appreciate a valuable discussion from Prof. Xin Sun (Fudan Uni., Shanghai, China) and Prof. Boris A. Malomed (Tel Aviv Univ., Tel Aviv, Israel). This work was supported by Chinese Agencies (Grant No. 11104083, 11204089, 11205063), by the German-Israel Foundation through Grant No. I-1024-2.7/2009, and by the Tel Aviv University in the framework of the “matching” scheme. Publisher copyright: © 2014 Elsevier GmbH. All rights reserved.

PY - 2014/8

Y1 - 2014/8

N2 - In this work, we study the evolution of a Gaussian beam inside a one-dimensional inverted nonlinear photonic crystals (INPC) with a Kerr nonlinearity. The INPC is a kind of virtual crystals which is generated by the optical induction via the electromagnetically induced transparency (EIT). The propagation dynamics of the Gaussian with different total power are identified. Four types of propagation behavior are found. They are collapse beam, breather beam, soliton and symmetry-breaking beam, respectively. The border between these four behavior types are given. For symmetry-breaking beam, an asymmetric profile of the beam is evolving from the symmetry Gaussian, which can be termed as a kind of dynamical symmetry breaking (DSB). The influences on the appearance of the symmetry breaking point are studied by varying input parameters of the Gaussian. The results of this work are both suitable in nonlinear optics and Bose-Einstein condensate (BEC).

AB - In this work, we study the evolution of a Gaussian beam inside a one-dimensional inverted nonlinear photonic crystals (INPC) with a Kerr nonlinearity. The INPC is a kind of virtual crystals which is generated by the optical induction via the electromagnetically induced transparency (EIT). The propagation dynamics of the Gaussian with different total power are identified. Four types of propagation behavior are found. They are collapse beam, breather beam, soliton and symmetry-breaking beam, respectively. The border between these four behavior types are given. For symmetry-breaking beam, an asymmetric profile of the beam is evolving from the symmetry Gaussian, which can be termed as a kind of dynamical symmetry breaking (DSB). The influences on the appearance of the symmetry breaking point are studied by varying input parameters of the Gaussian. The results of this work are both suitable in nonlinear optics and Bose-Einstein condensate (BEC).

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Propagation dynamic of a Gaussian in the inverted nonlinear photonic crystals

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