Dinh Ngoc Dung scite author profile

Dinh Ngoc Dung

3Publications

2Citation Statements Received

80Citation Statements Given

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123

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Vietnam Academy of Science and Technology

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Ultrathin hybrid absorber based on high-order metamaterial

Ha¹,

Hanh²,

Tung³

et al. 2021

J. Opt.

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In this work, we utilized a hybrid resonator to achieve near-perfect and dual-band absorption in the VHF and the LTE/Bluetooth/WiMAX bands. An electromagnetic (EM) wave at an oblique incidence was captured efficiently by exciting the fundamental magnetic resonances at 106 and 123.4 MHz. In particular, the effective thickness of the metamaterial perfect absorber (in comparison with the working wavelength ) is miniaturized to be at the high-order resonances (induced in the 2.0–4.0 GHz range) at a specific incident angle of EM wave, = 45°, 30°, 15° and = 5°. Our results contribute to the realization of meta-devices, such as sensors, optical filters/switchers, photodetectors, and energy converters, for future applications in the radio to the microwave frequency bands.

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Robust Reversion of Dual-band Polarization Conversion and Absorption Based on Flexible Metamaterial

et al. 2023

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BROADBAND POLARIZATION CONVERSION BASED ON SMALL-SIZE METAMATERIAL IN THE GHz BAND

Lãm

Khuyen

Tung

et al. 2021

Vietnam J. Sci. Technol.

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We proposed a small GHz metamaterial perfect absorber, which can operate in two different functional modes depending on the orientation of unit-cell structure. Firstly, when the unit-cell structure is oriented symmetrically to the external electric-field direction, an absorption mode is achieved with a near perfect absorption peak. Secondly, by rotating the resonator structure on top layer, metamaterial is asymmetric to the external field, leading to the excitation of cross-coupling effect.

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Dinh Ngoc Dung

Ultrathin hybrid absorber based on high-order metamaterial

Robust Reversion of Dual-band Polarization Conversion and Absorption Based on Flexible Metamaterial

BROADBAND POLARIZATION CONVERSION BASED ON SMALL-SIZE METAMATERIAL IN THE GHz BAND

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