Bayaner Arigong scite author profile

Novel graphene-based tunable plasmonic metamaterials featuring single and multiple transparency windows are numerically studied in this paper. The designed structures consist of a graphene layer perforated with quadrupole slot structures and dolmen-like slot structures printed on a substrate. Specifically, the graphene-based quadrupole slot structure can realize a single transparency window, which is achieved without breaking the structure symmetry. Further investigations have shown that the single transparency window in the proposed quadrupole slot structure is more likely originated from the quantum effect of Autler-Townes splitting. Then, by introducing a dipole slot to the quadrupole slot structure to form the dolmen-like slot structure, an additional transmission dip could occur in the transmission spectrum, thus, a multiple-transparency-window system can be achieved (for the first time for graphene-based devices). More importantly, the transparency windows for both the quadrupole slot and the dolmen-like slot structures can be dynamically controlled over a broad frequency range by varying the Fermi energy levels of the graphene layer (through electrostatic gating). The proposed slot metamaterial structures with tunable single and multiple transparency windows could find potential applications in many areas such as multiple-wavelength slow-light devices, active plasmonic switching, and optical sensing.

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A Varactor Based 90$^{\circ}$ Directional Coupler With Tunable Coupling Ratios and Reconfigurable Responses

Zhou

Shao

Arigong

et al. 2014

IEEE Trans. Microwave Theory Techn.

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In this paper, a symmetric four-port microwave varactor based 90 directional coupler with tunable coupling ratios and reconfigurable responses is presented. The proposed coupler is designed based on the modified structure of a crossover, where varactors are loaded. By applying suitable biasing voltages to the varactors, the power-dividing ratios between the two output ports (i.e., port 2 and port 3) of the coupler can be easily controlled. Moreover, it is found that the realizable power ratio using the proposed structure is very flexible (it could be extremely large or small). Therefore, under the special case when the coupling ratio is tuned to be 1, the proposed coupler is reconfigured to be a crossover. Good isolation and return-loss performance have been maintained for different power-dividing ratios. To theoretically analyze the proposed device, closed-form design equations are derived using the even-odd mode method. Based on these analytical equations, an experimental prototype working at 1 GHz is designed, fabricated, and characterized. The measurement results match well with the simulation and theoretical results, validating the proposed design theory.Index Terms-Crossover, even-odd mode, symmetrical, tunable coupling ratio, 90 directional coupler.

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A Novel Design of $4 \times 4$ Butler Matrix With Relatively Flexible Phase Differences

Ren

Arigong

Zhou

et al. 2016

Antennas Wirel. Propag. Lett.

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A Fully Symmetrical Crossover and Its Dual-Frequency Application

Shao

Ren

Arigong

et al. 2012

IEEE Trans. Microwave Theory Techn.

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Efficient multiband and broadband cross polarization converters based on slotted L-shaped nanoantennas

et al. 2014

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In this paper, we presented highly efficient reflective cross polarization converters based on metamaterials operating in the infrared regime, which are composed of a dielectric spacer sandwiched between slotted L-shaped metallic nanoantennas and a ground plane. The proposed polarization converters can convert a linearly polarized wave to its cross polarized wave with high polarization conversion ratio (> 0.95) over multiple / broad frequency bands. The resulting multi-band and broadband operations are induced by the localized mode hybridizations between the slot and the original metallic nanoantenna. Furthermore, the performance of the proposed converters under different incident angles is also explored. It is found that the first broad band (or the first two resonant frequencies) of the proposed broadband (or multi-band) converters appears to be independent of the incident angle (up to 47°).

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Bayaner Arigong

Tuneable complementary metamaterial structures based on graphene for single and multiple transparency windows

A Varactor Based 90$^{\circ}$ Directional Coupler With Tunable Coupling Ratios and Reconfigurable Responses

A Novel Design of $4 \times 4$ Butler Matrix With Relatively Flexible Phase Differences

A Fully Symmetrical Crossover and Its Dual-Frequency Application

Efficient multiband and broadband cross polarization converters based on slotted L-shaped nanoantennas

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