Patterned laser-induced graphene for terahertz wave modulation

Zongyuan Wang; Guocui Wang; Weiguang Liu; Bin Hu; Juan Liu; Yan Zhang

doi:10.1364/JOSAB.383324

Patterned laser-induced graphene for terahertz wave modulation

Zongyuan Wang, Guocui Wang, Weiguang Liu, Bin Hu^*, Juan Liu, Yan Zhang

^*Corresponding author for this work

School of Optics and Photonics

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

29 Citations (Scopus)

Abstract

Laser-induced graphene (LIG) has received a large amount of attention because of its superior properties of high electrical conductivity, high thermal stability and conductivity, simple synthesis, and the low fabrication cost of the patterned structures. However, most studies on LIG are focused on electrical applications. In this work, we first examine the effect of the substrate on LIG generated on polyimide and then fabricate the patterned LIG structures including gratings and Fresnel zone plates for terahertz (THz)-wave modulations. The functions of the structures are experimentally demonstrated by a THz focal plane imaging system. It is anticipated that LIG-based structures could widen the application of THz technology.

Original language	English
Pages (from-to)	546-551
Number of pages	6
Journal	Journal of the Optical Society of America B: Optical Physics
Volume	37
Issue number	2
DOIs	https://doi.org/10.1364/JOSAB.383324
Publication status	Published - 2020

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Wang, Z., Wang, G., Liu, W., Hu, B., Liu, J., & Zhang, Y. (2020). Patterned laser-induced graphene for terahertz wave modulation. Journal of the Optical Society of America B: Optical Physics, 37(2), 546-551. https://doi.org/10.1364/JOSAB.383324

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abstract = "Laser-induced graphene (LIG) has received a large amount of attention because of its superior properties of high electrical conductivity, high thermal stability and conductivity, simple synthesis, and the low fabrication cost of the patterned structures. However, most studies on LIG are focused on electrical applications. In this work, we first examine the effect of the substrate on LIG generated on polyimide and then fabricate the patterned LIG structures including gratings and Fresnel zone plates for terahertz (THz)-wave modulations. The functions of the structures are experimentally demonstrated by a THz focal plane imaging system. It is anticipated that LIG-based structures could widen the application of THz technology.",

author = "Zongyuan Wang and Guocui Wang and Weiguang Liu and Bin Hu and Juan Liu and Yan Zhang",

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AU - Wang, Zongyuan

AU - Wang, Guocui

AU - Liu, Weiguang

AU - Hu, Bin

AU - Liu, Juan

AU - Zhang, Yan

PY - 2020

Y1 - 2020

N2 - Laser-induced graphene (LIG) has received a large amount of attention because of its superior properties of high electrical conductivity, high thermal stability and conductivity, simple synthesis, and the low fabrication cost of the patterned structures. However, most studies on LIG are focused on electrical applications. In this work, we first examine the effect of the substrate on LIG generated on polyimide and then fabricate the patterned LIG structures including gratings and Fresnel zone plates for terahertz (THz)-wave modulations. The functions of the structures are experimentally demonstrated by a THz focal plane imaging system. It is anticipated that LIG-based structures could widen the application of THz technology.

AB - Laser-induced graphene (LIG) has received a large amount of attention because of its superior properties of high electrical conductivity, high thermal stability and conductivity, simple synthesis, and the low fabrication cost of the patterned structures. However, most studies on LIG are focused on electrical applications. In this work, we first examine the effect of the substrate on LIG generated on polyimide and then fabricate the patterned LIG structures including gratings and Fresnel zone plates for terahertz (THz)-wave modulations. The functions of the structures are experimentally demonstrated by a THz focal plane imaging system. It is anticipated that LIG-based structures could widen the application of THz technology.

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Patterned laser-induced graphene for terahertz wave modulation

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