Temperature dependence of the coupling loss between polymer optical waveguides and SMF for co-packaging [0.03%]
聚合物光波导与SMF耦合损耗的温度特性研究
Ryota Kinoshita,Takaaki Ishigure
Ryota Kinoshita
We theoretically calculate the coupling loss between single-mode fibers (SMFs) and polymer optical waveguides with different refractive index profiles. Temperature resistance is one of the concerns when integrating polymer optical waveguide...
Enhancement of structural and functional photoacoustic imaging based on a reference-inputted convolutional neural network [0.03%]
基于参考输入卷积神经网络的结构和功能光声成像增强技术
Zilong Zou,Dongfang Li,Haocheng Guo et al.
Zilong Zou et al.
Photoacoustic microscopy has demonstrated outstanding performance in high-resolution functional imaging. However, in the process of photoacoustic imaging, the photoacoustic signals will be polluted by inevitable background noise. Besides, t...
Standoff ultra-compact micro-Raman (SUCR) sensor for lunar surface exploration [0.03%]
月球表面探测 standoff 超紧凑型微拉曼(SUCR)传感器
M Nurul Abedin,Luther W Beegle,Jennifer E Edmunson et al.
M Nurul Abedin et al.
The Raman characterization results of lunar relevant simulants, including liquid water, ice, and organics using NASA Langley developed standoff ultra-compact micro-Raman (SUCR) sensor are presented. The SUCR sensor is designed as an instrum...
Design of silicon traveling-wave Mach-Zehnder modulators with transparent electrodes [0.03%]
设计具有透明电极的硅 travelling-wave mach-zehnder 调制器
Zhiguo Yu,Donghe Tu,Huan Guan et al.
Zhiguo Yu et al.
High-speed silicon traveling-wave Mach-Zehnder modulators (MZMs) are key components to support optical fiber communication. However, one major challenge with all-silicon MZMs is to achieve efficient high-speed electro-optic (EO) modulation....
Scalar far-field diffraction modelling using nonuniform fast Fourier transform for diffractive optical phase elements design [0.03%]
基于非均匀快速傅立叶变换的标量远场衍射模型及应用在光学相位元件的设计中
Yanqiu Li,Lei Zheng,Reinhard Caspary et al.
Yanqiu Li et al.
Due to their advantages of compact geometries and lightweight, diffractive optical elements (DOEs) are attractive in various applications such as sensing, imaging and holographic display. When designing DOEs based on algorithms, a diffracti...
Three-dimensional single-pixel imaging using a fractal superconducting nanowire single-photon detector [0.03%]
利用分形超导纳米线单光子探测器进行三维单像素成像
Kai Zou,Yun Meng,Song Li et al.
Kai Zou et al.
Faint-light imaging plays an important role in applications including fluorescence-lifetime microscopy and remote sensing. Superconducting nanowire single-photon detectors (SNSPDs) outperform other single-photon detectors in terms of compre...
Graph model-aided optimal iterative decoding technique for LDPC in optical fiber communication [0.03%]
基于图模型辅助迭代译码的LDPC编码技术研究
Qinghua Tian,Yiqun Pan,Xiangjun Xin et al.
Qinghua Tian et al.
The neural networks offer iteration capability for low-density parity-check (LDPC) decoding with superior performance at transmission. However, to cope with increasing code length and rate, the complexity of the neural network increases sig...
Photonic implementation of the input and reservoir layers for a reservoir computing system based on a single VCSEL with two Mach-Zehnder modulators: erratum [0.03%]
单VCSEL和两个马赫曾德调制器的基于光子学实现输入层和库层的库计算系统的更正 Erratum
Xingxing Guo,Hanxu Zhou,Shuiying Xiang et al.
Xingxing Guo et al.
This erratum corrects an error in Funding of the original paper, Opt. Express, 32(10), 17452 (2024). 10.1364/OE.522336.
Compact single-shot multispectral polarization imager through joint spectral-polarization encoding [0.03%]
基于联合光谱-偏振编码的单次拍摄紧凑型多光谱偏振成像仪
Yubo Lan,Peiyue Xie,Xue Dong et al.
Yubo Lan et al.
The technique of spectral polarization imaging (SPI) is a potent detection tool in various fields due to its ability to capture multi-dimensional information. However, existing SPI systems usually face challenges associated with architectur...
Multispectral Schwarzschild imaging system for the extreme ultraviolet emission measurement of tokamak plasma: erratum [0.03%]
托卡马克等离子体极紫外辐射测量的多光谱施瓦茨席尔德成像系统:勘误
Haoxuan Si,Shengzhen Yi,Tingfeng Ming et al.
Haoxuan Si et al.
This erratum corrects the affiliation addresses of authors of our paper [Opt. Express32, 43748 (2024).10.1364/OE.545563].