Terahertz Transmission‐Type Metasurface for the Linear and Circular Polarization Wavefront Manipulation

Li, Jun; Cheng, Yongzhi; Li, Xiangcheng

doi:10.1002/adts.202200151

Cited by 18 publications

(4 citation statements)

References 51 publications

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“…Note that the two distinct resonators (Si ESP and CDSR structure) are responsible for manipulating the THz wave at two corresponding frequencies independently. The sequence arrangement of discrete ESP and CDSR structures will inevitably lead to cross-coupling effects, which will cause some discrepancies between the designed phase and the practical arranged phase, thus finally resulting in a reduction of MS device efficiency [ 31 , 32 ]. In our design, the metal CR structure is added and used to reduce the cross-talk and cross-coupling effect between the ESP and CDSR structures.…”

Section: Structure Design and Simulationsmentioning

confidence: 99%

“…Compared to MMs, MSs offer the advantage of being lighter, thinner, and easier to fabricate, while also providing more flexible modulation of THz waves. Thus, various THz devices with single or composite functions, such as abnormal refraction/reflection, perfect absorption, beam splitters, orbital angular momentum, polarization conversion, beam deflection, and so on, have been proposed intensively [ 26 , 27 , 28 , 29 , 30 , 31 , 32 , 33 , 34 , 35 , 36 , 37 , 38 , 39 , 40 , 41 ]. Among these functions, polarization conversion and beam deflection are some of the most fundamental functionalities in photoelectric information processing systems.…”

Section: Introductionmentioning

confidence: 99%

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Photo-Excited Metasurface for Tunable Terahertz Reflective Circular Polarization Conversion and Anomalous Beam Deflection at Two Frequencies Independently

Cheng

et al. 2023

Nanomaterials

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In this paper, a photo-excited metasurface (MS) based on hybrid patterned photoconductive silicon (Si) structures was proposed in the terahertz (THz) region, which can realize the tunable reflective circular polarization (CP) conversion and beam deflection effect at two frequencies independently. The unit cell of the proposed MS consists of a metal circular-ring (CR), Si ellipse-shaped-patch (ESP) and circular-double-split-ring (CDSR) structure, a middle dielectric substrate, and a bottom metal ground plane. By altering the external infrared-beam pumping power, it is possible to modify the electric conductivity of both the Si ESP and CDSR components. By varying the conductivity of the Si array in this manner, the proposed MS can achieve a reflective CP conversion efficiency that ranges from 0% to 96.6% at a lower frequency of 0.65 THz, and from 0% to 89.3% at a higher frequency of 1.37 THz. Furthermore, the corresponding modulation depth of this MS is as high as 96.6% and 89.3% at two distinct and independent frequencies, respectively. Moreover, at the lower and higher frequencies, the 2π phase shift can also be achieved by respectively rotating the oriented angle (αi) of the Si ESP and CDSR structures. Finally, an MS supercell is constructed for the reflective CP beam deflection, and the efficiency is dynamically tuned from 0% to 99% at the two independent frequencies. Due to its excellent photo-excited response, the proposed MS may find potential applications in active functional THz wavefront devices, such as modulators, switches, and deflectors.

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Section: Structure Design and Simulationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Photo-Excited Metasurface for Tunable Terahertz Reflective Circular Polarization Conversion and Anomalous Beam Deflection at Two Frequencies Independently

Cheng

et al. 2023

Nanomaterials

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“…The phase discretization of 2π can be broadened from 1-bit to multi-bits [8,9], further simplifying the design and manufacturing of metasurface devices. Despite the limited number of encoded states, coded metasurfaces are usable to effectuate applications such as anomalous deflection [10], radar cross section (RCS) reduction [11,12], and vortex wave generation [13,14].…”

Section: Introductionmentioning

confidence: 99%

Design of a Three-channel Frequency Multiplexing Metasurface in Full Space

Ling,

He,

Hao

et al. 2024

PIER M

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The multifunctional metasurface offers a high degree of flexibility in manipulating electromagnetic waves. However, the majority of its functions are limited to the reflection or transmission space in a single band, restricting the utilization of electromagnetic information. This paper proposes a three-channel multifunctional frequency multiplexing coding metasurface based on the Fabry-Perot cavity principle. It consists of two layers of orthogonal metal gratings and a cross-shaped, oblique open loop structure in the intermediate layer. Simulation results reveal that at an incidence of 22 GHz, the polarization conversion and focusing functions of the transmitted wave are accomplished. Similarly, at an incidence of 31 GHz, the beam deflection function of the reflected wave is observed. Furthermore, at an incidence of 32 GHz, the radar scattering cross-section reduction function of the reflected wave is achieved. In addition to achieving high efficiency, miniaturization, and compactness, the proposed metasurface effectively enhances the spatial utilization of electromagnetic information. As a result, potential applications in multifunctional integrated systems, including wireless communication, sensing technologies, and radar systems, are vast.

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“…Recently, metasurfaces, which are ultrathin planar structures composed of subwavelength meta-atoms, have shown great potential to steer EM waves. By carefully designing the shapes and sizes of meta-atoms, plenty of EM wave manipulating applications have been achieved, including modulators, 9,10 holography, 11,12 polarization control, 13,14,28 vectorial fields, 15,16 wavefront manipulation, 17,18,[38][39][40][41] edge detection, [30][31][32] and topological photonics. [21][22][23][34][35][36] However, to date plentiful metasurfaces concentrate on the manipulation of PWs, while the manipulation of SWs through metasurfaces is not common.…”

mentioning

confidence: 99%

Spin-decoupled excitation and wavefront shaping of structured surface waves via on-chip terahertz metasurfaces

Chong

Zhao

et al. 2023

Nanoscale

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Terahertz Transmission‐Type Metasurface for the Linear and Circular Polarization Wavefront Manipulation

Cited by 18 publications

References 51 publications

Photo-Excited Metasurface for Tunable Terahertz Reflective Circular Polarization Conversion and Anomalous Beam Deflection at Two Frequencies Independently

Photo-Excited Metasurface for Tunable Terahertz Reflective Circular Polarization Conversion and Anomalous Beam Deflection at Two Frequencies Independently

Design of a Three-channel Frequency Multiplexing Metasurface in Full Space

Spin-decoupled excitation and wavefront shaping of structured surface waves via on-chip terahertz metasurfaces

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