Tunable effective nonlinear refractive index of graphene dispersions during the distortion of spatial self-phase modulation

Gaozhong Wang; Saifeng Zhang; Fadhil A. Umran; Xin Cheng; Ningning Dong; Darragh Coghlan; Ya Cheng; Long Zhang; Werner J. Blau; Jun Wang

doi:10.1063/1.4871092

Tunable effective nonlinear refractive index of graphene dispersions during the distortion of spatial self-phase modulation

Gaozhong Wang
, Saifeng Zhang^*
, Fadhil A. Umran
, Xin Cheng
, Ningning Dong
, Darragh Coghlan
, Ya Cheng
, Long Zhang
, Werner J. Blau
, Jun Wang

^*此作品的通讯作者

CAS - Shanghai Institute of Optics and Fine Mechanics
University of Baghdad
Trinity College Dublin

科研成果: 期刊稿件 › 文章 › 同行评审

116 引用（Scopus）

摘要

Spatial self-phase modulation (SSPM) was observed directly when a focused He-Ne laser beam at 633 nm went through liquid-phase-exfoliated graphene dispersions. The diffraction pattern of SSPM was found to be distorted rapidly right after the incident beam horizontally passing through the dispersions, while no distortion for the vertically incident geometry. We show that the distortion is originated mainly from the non-axis-symmetrical thermal convections of the graphene nanosheets induced by laser heating, and the relative change of nonlinear refractive index can be determined by the ratio of the distortion angle to the half-cone angle. Therefore, the effective nonlinear refractive index of graphene dispersions can be tuned by changing the incident intensity and the temperature of the dispersions.

源语言	英语
文章编号	141909
期刊	Applied Physics Letters
卷	104
期	14
DOI	https://doi.org/10.1063/1.4871092
出版状态	已出版 - 7 4月 2014
已对外发布	是

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abstract = "Spatial self-phase modulation (SSPM) was observed directly when a focused He-Ne laser beam at 633 nm went through liquid-phase-exfoliated graphene dispersions. The diffraction pattern of SSPM was found to be distorted rapidly right after the incident beam horizontally passing through the dispersions, while no distortion for the vertically incident geometry. We show that the distortion is originated mainly from the non-axis-symmetrical thermal convections of the graphene nanosheets induced by laser heating, and the relative change of nonlinear refractive index can be determined by the ratio of the distortion angle to the half-cone angle. Therefore, the effective nonlinear refractive index of graphene dispersions can be tuned by changing the incident intensity and the temperature of the dispersions.",

author = "Gaozhong Wang and Saifeng Zhang and Umran, \{Fadhil A.\} and Xin Cheng and Ningning Dong and Darragh Coghlan and Ya Cheng and Long Zhang and Blau, \{Werner J.\} and Jun Wang",

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AU - Wang, Gaozhong

AU - Zhang, Saifeng

AU - Umran, Fadhil A.

AU - Cheng, Xin

AU - Dong, Ningning

AU - Coghlan, Darragh

AU - Cheng, Ya

AU - Zhang, Long

AU - Blau, Werner J.

AU - Wang, Jun

PY - 2014/4/7

Y1 - 2014/4/7

N2 - Spatial self-phase modulation (SSPM) was observed directly when a focused He-Ne laser beam at 633 nm went through liquid-phase-exfoliated graphene dispersions. The diffraction pattern of SSPM was found to be distorted rapidly right after the incident beam horizontally passing through the dispersions, while no distortion for the vertically incident geometry. We show that the distortion is originated mainly from the non-axis-symmetrical thermal convections of the graphene nanosheets induced by laser heating, and the relative change of nonlinear refractive index can be determined by the ratio of the distortion angle to the half-cone angle. Therefore, the effective nonlinear refractive index of graphene dispersions can be tuned by changing the incident intensity and the temperature of the dispersions.

AB - Spatial self-phase modulation (SSPM) was observed directly when a focused He-Ne laser beam at 633 nm went through liquid-phase-exfoliated graphene dispersions. The diffraction pattern of SSPM was found to be distorted rapidly right after the incident beam horizontally passing through the dispersions, while no distortion for the vertically incident geometry. We show that the distortion is originated mainly from the non-axis-symmetrical thermal convections of the graphene nanosheets induced by laser heating, and the relative change of nonlinear refractive index can be determined by the ratio of the distortion angle to the half-cone angle. Therefore, the effective nonlinear refractive index of graphene dispersions can be tuned by changing the incident intensity and the temperature of the dispersions.

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M3 - 文章

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SN - 0003-6951

VL - 104

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 14

M1 - 141909

ER -

Tunable effective nonlinear refractive index of graphene dispersions during the distortion of spatial self-phase modulation

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