Excitation-wavelength-dependent THz wave modulation via external bias electric field

Shi Jia Feng; Li Quan Dong; Dan Ni Ma; Tong Wu; Yong Tan; Liang Liang Zhang; Cun Lin Zhang; Yue Jin Zhao

doi:10.1088/1674-1056/ab84d7

Excitation-wavelength-dependent THz wave modulation via external bias electric field

Shi Jia Feng, Li Quan Dong, Dan Ni Ma, Tong Wu, Yong Tan, Liang Liang Zhang^*, Cun Lin Zhang, Yue Jin Zhao^*

^*Corresponding author for this work

School of Optics and Photonics

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

3 Citations (Scopus)

Abstract

A theoretical model was proposed to describe the effects of external bias electric field on terahertz (THz) generated in air plasma. The model predicted that for a plasma in a bias electric field, the amplification effect of the THz wave intensity increases with the increase of the excitation laser wavelength. We experimentally observed the relationship between the THz enhancement effect and the electric field strength at different wavelengths. Experimental results showed a good agreement with the model predictions. These results enhance our understanding of the physical mechanism by which femtosecond lasers excite air to generate THz and extend the practical applications of THz generation and modulation.

Original language	English
Article number	064210
Journal	Chinese Physics B
Volume	29
Issue number	6
DOIs	https://doi.org/10.1088/1674-1056/ab84d7
Publication status	Published - Jun 2020

Keywords

DC bias electric field
THz wave generation
ponderomotive force

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10.1088/1674-1056/ab84d7

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title = "Excitation-wavelength-dependent THz wave modulation via external bias electric field",

abstract = "A theoretical model was proposed to describe the effects of external bias electric field on terahertz (THz) generated in air plasma. The model predicted that for a plasma in a bias electric field, the amplification effect of the THz wave intensity increases with the increase of the excitation laser wavelength. We experimentally observed the relationship between the THz enhancement effect and the electric field strength at different wavelengths. Experimental results showed a good agreement with the model predictions. These results enhance our understanding of the physical mechanism by which femtosecond lasers excite air to generate THz and extend the practical applications of THz generation and modulation.",

keywords = "DC bias electric field, THz wave generation, ponderomotive force",

author = "Feng, {Shi Jia} and Dong, {Li Quan} and Ma, {Dan Ni} and Tong Wu and Yong Tan and Zhang, {Liang Liang} and Zhang, {Cun Lin} and Zhao, {Yue Jin}",

note = "Publisher Copyright: {\textcopyright} 2020 Chinese Physical Society and IOP Publishing Ltd.",

year = "2020",

month = jun,

doi = "10.1088/1674-1056/ab84d7",

language = "English",

volume = "29",

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T1 - Excitation-wavelength-dependent THz wave modulation via external bias electric field

AU - Feng, Shi Jia

AU - Dong, Li Quan

AU - Ma, Dan Ni

AU - Wu, Tong

AU - Tan, Yong

AU - Zhang, Liang Liang

AU - Zhang, Cun Lin

AU - Zhao, Yue Jin

PY - 2020/6

Y1 - 2020/6

N2 - A theoretical model was proposed to describe the effects of external bias electric field on terahertz (THz) generated in air plasma. The model predicted that for a plasma in a bias electric field, the amplification effect of the THz wave intensity increases with the increase of the excitation laser wavelength. We experimentally observed the relationship between the THz enhancement effect and the electric field strength at different wavelengths. Experimental results showed a good agreement with the model predictions. These results enhance our understanding of the physical mechanism by which femtosecond lasers excite air to generate THz and extend the practical applications of THz generation and modulation.

AB - A theoretical model was proposed to describe the effects of external bias electric field on terahertz (THz) generated in air plasma. The model predicted that for a plasma in a bias electric field, the amplification effect of the THz wave intensity increases with the increase of the excitation laser wavelength. We experimentally observed the relationship between the THz enhancement effect and the electric field strength at different wavelengths. Experimental results showed a good agreement with the model predictions. These results enhance our understanding of the physical mechanism by which femtosecond lasers excite air to generate THz and extend the practical applications of THz generation and modulation.

KW - DC bias electric field

KW - THz wave generation

KW - ponderomotive force

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DO - 10.1088/1674-1056/ab84d7

M3 - Article

AN - SCOPUS:85087512973

SN - 1674-1056

VL - 29

JO - Chinese Physics B

JF - Chinese Physics B

IS - 6

M1 - 064210

ER -

Excitation-wavelength-dependent THz wave modulation via external bias electric field

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Keywords

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