Manipulating Nonlinear Photocurrent from Interlayer Coupling in Bilayer Metamaterials for Polarized Terahertz Generation

Polarized terahertz (THz) wave generation is of great significance for chiral and anisotropic sensing applications. However, how to manipulate amplitude, polarization, and ellipticity of the THz generation is still a fundamental challenge. Herein, polarized THz wave generation is achieved from a bil...

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Veröffentlicht in:	Annalen der Physik 2023-12, Vol.535 (12), p.n/a
Hauptverfasser:	Shi, Ming‐jian, Lei, Zhen, Xi, Ya‐yan, Cao, Xue‐qin, Liu, Hui‐biao, Huang, Yuan‐yuan, Xu, Xin‐long
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Sprache:	eng
Schlagworte:	bilayer metamaterials Coupling Dichroism Ellipticity Hydrodynamic equations Interlayers Metamaterials nonlinear photocurrent Photoelectric effect Photoelectric emission polarization control terahertz (THz) generation Terahertz frequencies twist angle Vertical polarization Wave generation
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description	Polarized terahertz (THz) wave generation is of great significance for chiral and anisotropic sensing applications. However, how to manipulate amplitude, polarization, and ellipticity of the THz generation is still a fundamental challenge. Herein, polarized THz wave generation is achieved from a bilayer metamaterial consisting of T‐shaped structure (TSS) and split resonator rings (SRRs) by combining Maxwell and hydrodynamic equations. The elliptically polarized THz wave can be synthetized directly from horizontally and vertically polarized THz components due to the orthogonal nonlinear photocurrents along the arm‐directions of TSS and SRRs, respectively. Besides, the ellipticity and the orientation angle of the THz polarization ellipse can be modulated by the twist angle between the SRRs and TSS layers. The maximum ellipticity can reach 0.34 while the orientation angle is tunable from −0.45 to 0.48π by tuning the twist angle. This work proposes an interlayer coupling method for the polarized THz sources based on metamaterials in potential circular dichroism and chiral sensing applications. The polarized THz wave generation is achieved from a bilayer metamaterial consisting of T‐shaped structure (TSS) and split resonator rings (SRRs) by combining Maxwell and hydrodynamic equations. The ellipticity and the orientation angle of the THz polarization ellipse can be modulated by the twist angle between the SRRs and TSS layers.
doi_str_mv	10.1002/andp.202300314
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However, how to manipulate amplitude, polarization, and ellipticity of the THz generation is still a fundamental challenge. Herein, polarized THz wave generation is achieved from a bilayer metamaterial consisting of T‐shaped structure (TSS) and split resonator rings (SRRs) by combining Maxwell and hydrodynamic equations. The elliptically polarized THz wave can be synthetized directly from horizontally and vertically polarized THz components due to the orthogonal nonlinear photocurrents along the arm‐directions of TSS and SRRs, respectively. Besides, the ellipticity and the orientation angle of the THz polarization ellipse can be modulated by the twist angle between the SRRs and TSS layers. The maximum ellipticity can reach 0.34 while the orientation angle is tunable from −0.45 to 0.48π by tuning the twist angle. This work proposes an interlayer coupling method for the polarized THz sources based on metamaterials in potential circular dichroism and chiral sensing applications. The polarized THz wave generation is achieved from a bilayer metamaterial consisting of T‐shaped structure (TSS) and split resonator rings (SRRs) by combining Maxwell and hydrodynamic equations. 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The polarized THz wave generation is achieved from a bilayer metamaterial consisting of T‐shaped structure (TSS) and split resonator rings (SRRs) by combining Maxwell and hydrodynamic equations. 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The polarized THz wave generation is achieved from a bilayer metamaterial consisting of T‐shaped structure (TSS) and split resonator rings (SRRs) by combining Maxwell and hydrodynamic equations. The ellipticity and the orientation angle of the THz polarization ellipse can be modulated by the twist angle between the SRRs and TSS layers.</abstract><cop>Weinheim</cop><pub>Wiley Subscription Services, Inc</pub><doi>10.1002/andp.202300314</doi><tpages>8</tpages><orcidid>https://orcid.org/0000-0002-3034-810X</orcidid><orcidid>https://orcid.org/0000-0001-7752-4054</orcidid></addata></record>
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subjects	bilayer metamaterials Coupling Dichroism Ellipticity Hydrodynamic equations Interlayers Metamaterials nonlinear photocurrent Photoelectric effect Photoelectric emission polarization control terahertz (THz) generation Terahertz frequencies twist angle Vertical polarization Wave generation
title	Manipulating Nonlinear Photocurrent from Interlayer Coupling in Bilayer Metamaterials for Polarized Terahertz Generation
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