Satellite images commonly exhibit constrained brightness values, facilitating the enhancement of contrast to preserve pertinent details before conducting further image analysis. Enhancing the brightness of the images ...
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A temperature-insensitive U-shaped liquid level sensor based on single-mode fiber (SMF) cascaded with double spheres is proposed. Cladding modes are excited by spherical structures. U-shaped liquid level sensors are m...
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In this manuscript, a fiber optic sensor based on a U-shaped single mode fiber (SMF) is proposed for liquid level measurement. The U-shaped structure is fabricated by flame burning method. The U-shaped structure leads...
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The development of machine learning is driving revolutionary changes and unprecedented opportunities across various industries. This paper introduces a new temperature monitoring method that combines the efficient dee...
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In traditional optical reservoir computing, the least squares method are commonly used to train the output weights for regression tasks. Although these algorithms are highly versatile, their training efficiency and ac...
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We propose and numerically investigate a multiplexing metal grating coupler based on metal/insulator/metal (MIM) structure. The coupler consists of gold grating/silicon/gold layers, which combines with MIM waveguid...
We propose and numerically investigate a multiplexing metal grating coupler based on metal/insulator/metal (MIM) structure. The coupler consists of gold grating/silicon/gold layers, which combines with MIM waveguide, concurrently achieving path multiplexing and wavelength multiplexing through TMnmodes coupling. In visible light band, TM waves are coupled to the upper surface of gold plate, and the coupling efficiency reaches maximum of 31.67% at wavelength of 736 nm. In near infrared and mid infrared bands, TM waves are coupled into MIM waveguide, and the coupling efficiency reaches maximum of 53.57% at wavelength of 2550 nm. There can be four modes of TM0, TM1, TM2and TM3simultaneously in MIM waveguide, which are excited at different wavelengths. The preparation process of the structure designed in this article is simple, with dimensions at the micrometer level, easy to be integrated, and can be applied to be integrated optical circuits.
Pose estimation approaches of open pose were suggested. Pose estimation in real-time is a difficult research subject with many computer vision applications. Pose estimation applications are Human Activity Estimation, ...
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A triple-band miniaturized end-fire antenna based on the odd modes of spoof surface plasmonic polariton (SSPP) waveguide resonator is proposed in this paper. To meet the ever increasing demand for more communication c...
A triple-band miniaturized end-fire antenna based on the odd modes of spoof surface plasmonic polariton (SSPP) waveguide resonator is proposed in this paper. To meet the ever increasing demand for more communication channels and less antenna sizes, multi-band antennas are currently under intensive investigation. By a novel feeding method, three odd modes are excited on an SSPP waveguide resonator, which performs as an end-fire antenna operating at three bands, 7.15-7.26GHz, 11.6-12.2GHz and 13.5-13.64GHz. It exhibits reasonably high and stable maximum gains of 5.26, 7.97 and 10.1dBi and maximum efficiencies of 64%, 92% and 98% at the three bands, respectively. Moreover, in the second band the main beam angle shows a frequency dependence with a total scanning angle of 19°. The miniaturized triple-band antenna has a great potential to be applied in wireless communication systems, satellite communication and radar systems.
Photonic crystal notch filter plays a vital role in photonics applications which can selectively attenuate the unwanted interference. However, it remains challenging to achieve high efficiency and is generally limite...
Photonic crystal notch filter plays a vital role in photonics applications which can selectively attenuate the unwanted interference. However, it remains challenging to achieve high efficiency and is generally limited to the single notch performance. Here, we demonstrated a high efficient all-silicon multi-notch filter scheme utilizing photonic crystal nanorod flower-shaped resonators. Based on the single resonant cavity, the dielectric columns can be introduced to create the intracavity asymmetry achieving double notch, meanwhile by adding the certain scattering nanorods to trap light efficiently, it can also obtain triple notch. The results emanate that the transmission and the Q of single notch up to 2.6% and 16209.4, double notch 0.5%, 0.1% and 12371.7,13934.5, triple notch 0.2%, 0.5%, 2.3%, 2312.9, 2062.8, 2327.4 can be achieved, respectively. The proposed high efficient multi-notch filters could potentially catalyze advancements in filter technology within the realm of silicon photonics applications and optical communication.
In this paper, we propose and numerically characterize the optical characteristics of a high sensitivity dual polarization four channels surface plasmon resonance refractive index sensor with wide detection range and...
In this paper, we propose and numerically characterize the optical characteristics of a high sensitivity dual polarization four channels surface plasmon resonance refractive index sensor with wide detection range and high linearity based on photonic crystal fiber (PCF). Four light transmission channels are constructed by using big air holes. The small rectangular air hole in the center of the fiber core is used to add asymmetry. We use gold plasma material to achieve better sensing performance. A thin film of TiO2is placed on the PCF surface, which assists gold in the adhesion on PCF. The maximum wavelength sensitivity of the sensor can reach 20000 nm/RIU in both x and y polarization modes. While the maximum wavelength resolution of the sensor is 5×10-6RIU. The average wavelength sensitivity reached 15900nm/RIU and 15800nm/RIU in x and y polarization mode. The sensor features R2=0.9969 / R2=0.9966 high linear performance in x and y polarization mode and the maximum FOM values 509.13 RIU-1/ 489.63 RIU-1in x and y polarization mode. Besides the sensor’s detection range is 1.26-1.36, which is a wide refractive index detection range. The sensor has a wide range of applications in biomedical and other fields.
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