Targeted Double Negative Properties in Silver/Silica Random Metamaterials by Precise Control of Microstructures

Abstract: The mechanism of negative permittivity/permeability is still unclear in the random metamaterials, where the precise control of microstructure and electromagnetic properties is also a challenge due to its random characteristic. Here silver was introduced into porous SiO2 microsphere matrix by a self-assemble and template method to construct the random metamaterials. The distribution of silver was restricted among the interstices of SiO2 microspheres, which lead … Show more

“…In this work, the SiO 2 @Pb powders with different content of SiO 2 were synthesized by sol-gel. [20][21][22] The Pb powders and NH 4 OH were added into alcohol-water solution (volume ratio of alcohol to water was 5 : 1) with mechanical stirring. Then the TEOS was dropped by a constant ow pump with 0.5 mL min À1 under 25 C. Until the TEOS was dropped completely, the temperature was set to 80 C to get the SiO 2 @Pb slurry.…”

A new way for lead–boron resin composite modification: SiO₂ coated lead powders by a sol–gel method

“…In this work, the SiO 2 @Pb powders with different content of SiO 2 were synthesized by sol-gel. [20][21][22] The Pb powders and NH 4 OH were added into alcohol-water solution (volume ratio of alcohol to water was 5 : 1) with mechanical stirring. Then the TEOS was dropped by a constant ow pump with 0.5 mL min À1 under 25 C. Until the TEOS was dropped completely, the temperature was set to 80 C to get the SiO 2 @Pb slurry.…”

A new way for lead–boron resin composite modification: SiO₂ coated lead powders by a sol–gel method

“…In this regime, σ gap and n gap are very responsive to the intensity of the external illumination, meaning that these parameters can be easily modified depending on the applied electric field intensity. For instance, when the field intensity 5.5×10 6 (3.6×10 10 ) 1.2×10 6 (1.8×10 10 ) 7.3×10 5 (1.5×10 10 ) 3.2×10 5 (1.2×10 10 ) 1.1×10 5 (1.0×10 10 ) 4.6×10 4 (9.0×10 9 ) 1.3×10 4 (8.0×10 9 ) 9.0×10 2 (6.0×10 9 ) 4.1(1. In all regimes, the shaded areas indicate the energy levels of the tunneling electrons.…”

“…Plasmonics is a promising counterpart of nanophotonics which has witnessed major progresses in the control and manipulation of electromagnetic (EM) fields at extremesubwavelength scales [1][2][3]. Central to all studies is the surface plasmon's unique capability to harvest, process, and concentrate light and convert it into energetic near-fields, thermal power, and hot carriers [4][5][6][7]. All these remarkable applications and developments of subsequent optical devices have been realized using resonant plasmonic nanostructures across the ultraviolet (UV) to the far-infrared spectra.…”

Functional Charge Transfer Plasmon Metadevices

“…As a result, the chiral responses of the forward propagating light are canceled by the backward propagating light inside the FP cavity [24]. Metamaterials are artificial materials engineered to realise a plethora of novel functionalities and phenomena, which are unreachable by naturally occurring materials [25][26][27][28][29][30]. They are usually arranged in periodic patterns, at a scale which is much less than the wavelength of interest [31,32].…”

Chirality Enhancement Using Fabry–Pérot-Like Cavity