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Waveguide coupling design is one of the most challenging topics in augmented reality (AR) near-eye displays (NED). The primary challenge stems from the necessity to simultaneously address two competing factors: the overall volume of the AR system and the occurrence of chromatic aberration. To address this issue, what we believe to be a novel tandem trilayer achromatic metasurface is specifically designed for waveguide coupling in AR NEDs, capable of achieving an achromatic effect in a nanometer-thin layer.
View Article and Find Full Text PDFWave-absorbing honeycombs have garnered widespread attention due to their high-efficiency absorption, ultra-wideband absorption, lightweight nature, and high load-carrying capacity. However, as electromagnetic radiation power increases, the temperature of the absorbing honeycomb increases rapidly, even leading to burning. Therefore, it is significant to possess an efficient and accurate assessment of the thermal effects of absorbing honeycombs under electromagnetic radiation.
View Article and Find Full Text PDFWe present a simple approach to enhance the signal strength and detection sensitivity of weak photoacoustic signals, by using ultrathin, high refractive index, absorbing semiconductor layers on metal surfaces. They form etalon resonances with reflection minima already for layer thicknesses of only a few tens of nm. Strain waves induce changes in the physical/optical thickness of the layers and/or changes in the phase and amplitude of light upon reflection from the metal-semiconductor interface.
View Article and Find Full Text PDFA diffractive waveguide based on surface relief gratings demonstrates significant potential for augmented reality owing to its ultra-thin and lightweight design, as well as its feasibility for mass production using nanoimprint technology. However, traditional waveguides suffer from low combiner efficiency. To address this issue, we propose what we believe to be a novel double-sided surface relief grating waveguide (abbreviated as double-sided waveguide) with a high combiner efficiency, which comprises a double-sided in-coupler, two single-sided turners, and a double-sided out-coupler.
View Article and Find Full Text PDFThis paper proposes a conformal high-efficiency ultra-thin flexible rectifying metasurface (RMS) with a simple structure applied for wireless power transferring (WPT), featuring polarization insensitivity and wide-angle incidence capabilities. The RMS unit adopts a rotationally symmetric structure consisting of double rings and cross-shaped elements, with two diodes placed in the gap of the cross-shaped to achieve polarization insensitivity. Simultaneously, by adjusting the dimensions of the "double ring and cross" structure, its output impedance is varied to achieve conjugate matching with the diode input impedance, thereby eliminating the impedance matching network.
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