成?V人片一区二区三区久久-成?V人片一区二区三区久久-日韩成人国产精品视频-无码中文精品专区一区二区-国产麻豆欧美一区二区-国产欧美日韩综合精品二区-欧美欧美一区二区-亚洲?v无码一区二区观看-亚洲av日韩不卡一区

2024

2024

  • Record 25 of

    Title:Duplex-Hierarchy Representation Learning for Remote Sensing Image Classification
    Author Full Names:Yuan, Xiaobin(1,2); Zhu, Jingping(1); Lei, Hao(3,4); Peng, Shengjun(5); Wang, Weidong(6); Li, Xiaobin(7)
    Source Title:Sensors
    Language:English
    Document Type:Journal article (JA)
    Abstract:Remote sensing image classification (RSIC) is designed to assign specific semantic labels to aerial images, which is significant and fundamental in many applications. In recent years, substantial work has been conducted on RSIC with the help of deep learning models. Even though these models have greatly enhanced the performance of RSIC, the issues of diversity in the same class and similarity between different classes in remote sensing images remain huge challenges for RSIC. To solve these problems, a duplex-hierarchy representation learning (DHRL) method is proposed. The proposed DHRL method aims to explore duplex-hierarchy spaces, including a common space and a label space, to learn discriminative representations for RSIC. The proposed DHRL method consists of three main steps: First, paired images are fed to a pretrained ResNet network for extracting the corresponding features. Second, the extracted features are further explored and mapped into a common space for reducing the intra-class scatter and enlarging the inter-class separation. Third, the obtained representations are used to predict the categories of the input images, and the discrimination loss in the label space is minimized to further promote the learning of discriminative representations. Meanwhile, a confusion score is computed and added to the classification loss for guiding the discriminative representation learning via backpropagation. The comprehensive experimental results show that the proposed method is superior to the existing state-of-the-art methods on two challenging remote sensing image scene datasets, demonstrating that the proposed method is significantly effective. ? 2024 by the authors.
    Affiliations:(1) The School of Electronic and Information Engineering, Xi’an Jiaotong University, Xi’an; 710049, China; (2) The Xi’an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi’an; 710119, China; (3) National Key Laboratory of Human-Machine Hybrid Augmented Intelligence, Xi’an Jiaotong University, Xi’an; 710049, China; (4) Institute of Artificial Intelligence and Robotics, Xi’an Jiaotong University, Xi’an; 710049, China; (5) The State Key Laboratory of Astronautic Dynamics, China Xi’an Satellite Control Center, Xi’an; 710043, China; (6) PLA 63768, Xi’an; 710600, China; (7) The Beijing Institute of Remote Sensing Information, Beijing; 100192, China
    Publication Year:2024
    Volume:24
    Issue:4
    Article Number:1130
    DOI Link:10.3390/s24041130
    數(shù)據(jù)庫ID(收錄號):20240815619383
  • Record 26 of

    Title:Multi-Dimensional Fusion of Spectral and Polarimetric Images Followed by Pseudo-Color Algorithm Integration and Mapping in HSI Space
    Author Full Names:Guo, Fengqi(1,2); Zhu, Jingping(1); Huang, Liqing(2); Li, Feng(1); Zhang, Ning(3); Deng, Jinxin(1); Li, Haoxiang(1); Zhang, Xiangzhe(1); Zhao, Yuanchen(1); Jiang, Huilin(4); Hou, Xun(1)
    Source Title:Remote Sensing
    Language:English
    Document Type:Journal article (JA)
    Abstract:Spectral–polarization imaging technology plays a crucial role in remote sensing detection, enhancing target identification and tracking capabilities by capturing both spectral and polarization information reflected from object surfaces. However, the acquisition of multi-dimensional data often leads to extensive datasets that necessitate comprehensive analysis, thereby impeding the convenience and efficiency of remote sensing detection. To address this challenge, we propose a fusion algorithm based on spectral–polarization characteristics, incorporating principal component analysis (PCA) and energy weighting. This algorithm effectively consolidates multi-dimensional features within the scene into a single image, enhancing object details and enriching edge features. The robustness and universality of our proposed algorithm are demonstrated through experimentally obtained datasets and verified with publicly available datasets. Additionally, to meet the requirements of remote sensing tracking, we meticulously designed a pseudo-color mapping scheme consistent with human vision. This scheme maps polarization degree to color saturation, polarization angle to hue, and the fused image to intensity, resulting in a visual display aligned with human visual perception. We also discuss the application of this technique in processing data generated by the Channel-modulated static birefringent Fourier transform imaging spectropolarimeter (CSBFTIS). Experimental results demonstrate a significant enhancement in the information entropy and average gradient of the fused image compared to the optimal image before fusion, achieving maximum increases of 88% and 94%, respectively. This provides a solid foundation for target recognition and tracking in airborne remote sensing detection. ? 2024 by the authors.
    Affiliations:(1) Key Laboratory for Physical Electronics and Devices of the Ministry of Education, Shaanxi Key Laboratory of Information Photonic Technique, Xi’an, Xi’an, 710049, China; (2) Non Equilibrium Condensed Matter and Quantum Engineering Laboratory, The Key Laboratory of Ministry of Education, School of Physics, Xi’an, Xi’an, 710049, China; (3) Key Laboratory of Spectral Imaging Technology, Xi’an Institute of Optics and Precision Mechanics of CAS, Xi’an; 710119, China; (4) National and Local Joint Engineering Research Center of Space Optoelectronics Technology, Changchun University of Science and Technology, Changchun; 130022, China
    Publication Year:2024
    Volume:16
    Issue:7
    Article Number:1119
    DOI Link:10.3390/rs16071119
    數(shù)據(jù)庫ID(收錄號):20241615921118
  • Record 27 of

    Title:Interlayer coupled dual-layer metagratings for broadband and high-efficiency anomalous reflection
    Author Full Names:Luo, Yijie(1,2); Yang, Ruisheng(1,2,3); Xie, Lingyun(1,2,3); Xu, Weijie(1,2); Fan, Yuancheng(4); Wei, Zeyong(1,2,3); Wang, Zhanshan(1,2,3); Cheng, Xinbin(1,2,3)
    Source Title:Optics Express
    Language:English
    Document Type:Journal article (JA)
    Abstract:Recent progress in metagratings highlights the promise of high-performance wavefront engineering devices, notably for their exterior capability to steer beams with near-unitary efficiency. However, the narrow operating bandwidth of conventional metagratings remains a significant limitation. Here, we propose and experimentally demonstrate a dual-layer metagrating, incorporating enhanced interlayer couplings to realize high-efficiency and broadband anomalous reflection within the microwave frequency band. The metagrating facilitated by both intralayer and interlayer couplings is designed through the combination of eigenmode expansion (EME) algorithm and particle swarm optimization (PSO) to significantly streamline the computational process. Our metagrating demonstrates the capacity to reroute a normally incident wave to +1 order diffraction direction across a broad spectrum, achieving an average efficiency approximately 90% within the 14.7 to 18 GHz range. This study may pave the way for future applications in sophisticated beam manipulations, including spatial dispersive devices, by harnessing the intricate dynamics of multi-layer metagratings with complex interlayer and intralayer interactions. ? 2024 Optica Publishing Group.
    Affiliations:(1) Institute of Precision Optical Engineering, School of Physics Science and Engineering, Tongji University, Shanghai; 200092, China; (2) MOE Key Laboratory of Advanced Micro-Structured Materials, Shanghai; 200092, China; (3) Shanghai Frontiers Science Research Base of Digital Optics, Tongji University, Shanghai; 200092, China; (4) Department of Applied Physics, School of Science and Shenzhen Research & Development Institute, Northwestern Polytechnical University, Xi'an; 710129, China
    Publication Year:2024
    Volume:32
    Issue:12
    Start Page:21594-21605
    DOI Link:10.1364/OE.524006
    數(shù)據(jù)庫ID(收錄號):20242416251695
  • Record 28 of

    Title:Observation of 2 μm multiple annular structured vortex pulsed beams by cavity-mode tailoring
    Author Full Names:Zhu, Qiang(1,2); Song, Xiaozhao(1); Li, Luyao(1); Kang, Hui(1,2); Yao, Tianchen(1,2); Liu, Guangmiao(1,2); Miao, Kairui(1); Zhou, Wei(1,2); Wang, Haotian(1,2); Xu, Xiaodong(1); Jia, Baohua(3); Wang, Yishan(4); Wang, Fei(2); Shen, Deyuan(1,2)
    Source Title:Optics Letters
    Language:English
    Document Type:Journal article (JA)
    Abstract:In the past few years, annular structured beams have been extensively studied due to their unique "doughnut" structure and characteristics such as phase and polarization vortices. Especially in the 2 μm wavelength range, they have shown promising applications in fields such as novel laser communication, optical processing, and quantum information processing. In this Letter, we observed basis vector patterns with orthogonality and completeness by finely cavity-mode tailoring with end-mirror space position in a Tm:CaYAlO4 laser. Multiple annular structured beams including azimuthally, linearly, and radially polarized beams (APB, LPB, and RPB) operated at a Q-switched mode-locking (QML) state with a typical output power of ~18 mW around 1962 nm. Further numerical simulation proved that the multiple annular structured beams are the coherent superposition of different Hermitian Gaussian modes. Using a self-made M–Z interferometer, we have demonstrated that the obtained multiple annular beams have a vortex phase with orbital angular momentum (OAM) of l = ±1. To the best of our knowledge, this is the first observation of vector and scalar annular vortex beams in the 2 μm solid-state laser. ? 2024 Optica Publishing Group.
    Affiliations:(1) Jiangsu Key Laboratory of Advanced Laser Materials and Devices, School of Physics and Electronic Engineering, Jiangsu Normal University, Xuzhou; 221116, China; (2) Jiangsu Institute of Mid Infrared Laser Technology & Applications, Xuzhou; 221000, China; (3) The Australian Research Council (ARC) Industrial Transformation Training Centre in Surface Engineering for Advanced Materials (SEAM), RMIT University, Melbourne; VIC; 3000, Australia; (4) State Key Laboratory of Transient Optics and Photonics, Xi’an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi’an; 710119, China
    Publication Year:2024
    Volume:49
    Issue:13
    Start Page:3709-3712
    DOI Link:10.1364/OL.524370
    數(shù)據(jù)庫ID(收錄號):20242816657496
  • Record 29 of

    Title:Colloidal Nanoplatelets-Based Soft Matter Technology for Photonic Interconnected Networks: Low-Threshold Lasing and Polygonal Self-Coupling Microlasers
    Author Full Names:Duan, Rui(1); Thung, Yi Tian(1,2); Zhang, Zitong(1,3); Durmusoglu, Emek Goksu(1,2); He, Yichen(4); Xiao, Lian(1); Lee, Calvin Xiu Xian(1); Lew, Wen Siang(1); Zhang, Lin(4); Li, Hanyang(5); Yang, Jun(6); Demir, Hilmi Volkan(1,2,7,8); Sun, Handong(1)
    Source Title:Laser and Photonics Reviews
    Language:English
    Document Type:Journal article (JA)
    Abstract:Soft matter-based microlasers are widely regarded as excellent building blocks for realizing photonic interconnected networks in optoelectronic chips, owing to their flexibility and functional network topology. However, the potential of these devices is hindered by challenges such as poor lasing stability, high lasing threshold, and gaps in knowledge regarding cavity interconnection characteristics. In this study, the first demonstration of a high-quality, low-threshold nanoplatelets (NPLs)-based polymer microfiber laser fabricated using capillary immersion techniques and its photonic interconnected networks are presented. CdSe/CdS@Cd1-xZnxS core/buffer shell@graded-shell NPLs with high optical gain characteristics are adopted as the gain medium. The study achieves a lasing threshold below 14.8 μJ cm?2, a single-mode quality (Q)-factor of ≈5500, and robust lasing stability in the fabricated NPLs-based microfibers. Furthermore, the study pioneers the exploration of polygonal self-coupling microlasers and the optical characteristics of their interconnected fiber network. Based on the signal generation mechanism observed in the photonic networks, an interconnected NPLs-based fiber network structure achieving single-mode lasing emission and laser mode modulation is successfully designed. The work contributes a novel method for realizing microlasers fabricated via soft-matter technologies and provides a key foundation and new insights for unit design and programming for future photonic network systems. ? 2023 Wiley-VCH GmbH.
    Affiliations:(1) Division of Physics and Applied Physics, School of Physical and Mathematical Sciences, Nanyang Technological University, 21 Nanyang Link, Singapore; 637371, Singapore; (2) LUMINOUS! Centre of Excellence for Semiconductor Lighting and Displays, The Photonics Institute, School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore; 639798, Singapore; (3) Xi'an Modern Chemistry Research Institute, Shaanxi, Xi'an; 710065, China; (4) School of Precision Instruments and Optoelectronics Engineering, Tianjin University, Tianjin; 300072, China; (5) College of Physics and Optoelectronic Engineering, Harbin Engineering University, Harbin; 150001, China; (6) Guangdong Provincial Key Laboratory of Information Photonics Technology, College of Information Engineering, Guangdong University of Technology, Guangzhou; 510006, China; (7) School of Materials Science and Engineering, Nanyang Technological University, Singapore; 639798, Singapore; (8) Department of Electrical and Electronics Engineering, Department of Physics, UNAM—Institute of Materials Science and Nanotechnology, Bilkent University, Ankara; 06800, Turkey
    Publication Year:2024
    Volume:18
    Issue:1
    Article Number:2300745
    DOI Link:10.1002/lpor.202300745
    數(shù)據(jù)庫ID(收錄號):20234615068818
  • Record 30 of

    Title:All-PM Yb-doped mode-locked fiber laser with high single pulse energy and high repetition frequency
    Author Full Names:Fu, Chaohui(1,2); Song, Yuanqi(1,2); Tao, Jianing(1,2); Zhang, Pu(3); Qi, Mei(4); Chen, Haowei(1,2); Bai, Jintao(1,2)
    Source Title:Journal of Optics (United Kingdom)
    Language:English
    Document Type:Journal article (JA)
    Abstract:We demonstrate an all-polarization-maintaining (PM) ytterbium (Yb)-doped fiber laser with a figure-of-9 structure to generate mode-locked pulses with high single pulse energy and high repetition frequency. By exploiting the nonlinear amplifying loop mirror, a stably self-started mode-locking is achieved with a spectrum bandwidth of 13 nm and a pulse duration of 4.53 ps. The fundamental frequency is 97.966 MHz at the maximum output power of 143 mW in single pulse mode-locked operation, corresponding to the single pulse energy is 1.46 nJ. The output pulses maintain both high repetition frequency and high single-pulse energy. This laser oscillator can be an ideal seed source for applications such as high-energy amplifiers. ? 2024 IOP Publishing Ltd.
    Affiliations:(1) State Key Laboratory of Energy Photon-Technology in Western China, International Collaborative Center on Photoelectric Technology and Nano Functional materials, Institute of Photonics & Photon-technology, Northwest University, Xi’an; 710127, China; (2) Shaanxi Engineering Technology Research Center for Solid State Lasers and Application, Shaanxi Provincial Key Laboratory of Photo-electronic Technology, Northwest University, Xi’an; 710127, China; (3) State Key Laboratory of Transient Optics and Photonics, Xi’an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi’an; 710119, China; (4) School of Information Science and Technology, Northwest University, Xi’an; 710127, China
    Publication Year:2024
    Volume:26
    Issue:7
    Article Number:075502
    DOI Link:10.1088/2040-8986/ad4612
    數(shù)據(jù)庫ID(收錄號):20242216152311
  • Record 31 of

    Title:Multi-level efficient 3D image reconstruction model based on ViT
    Author Full Names:Zhang, Renhao(1,2); Hu, Bingliang(1); Chen, Tieqiao(1); Zhang, Geng(1); Li, Siyuan(1); Chen, Baocheng(1,2); Liu, Jia(1,3,5); Jia, Xinyin(1); Wang, Xing(4); Su, Chang(2,4); Li, Xijie(1); Zhang, Ning(1); Qiao, Kai(2,4)
    Source Title:Optics Express
    Language:English
    Document Type:Journal article (JA)
    Abstract:Single-photon LIDAR faces challenges in high-quality 3D reconstruction due to high noise levels, low accuracy, and long inference times. Traditional methods, which rely on statistical data to obtain parameter information, are inefficient in high-noise environments. Although convolutional neural networks (CNNs)-based deep learning methods can improve 3D reconstruction quality compared to traditional methods, they struggle to effectively capture global features and long-range dependencies. To address these issues, this paper proposes a multi-level efficient 3D image reconstruction model based on vision transformer (ViT). This model leverages the self-attention mechanism of ViT to capture both global and local features and utilizes attention mechanisms to fuse and refine the extracted features. By introducing generative adversarial ngenerative adversarial networks (GANs), the reconstruction quality and robustness of the model in high noise and low photon environments are further improved. Furthermore, the proposed 3D reconstruction network has been applied in real-world imaging systems, significantly enhancing the imaging capabilities of single-photon 3D reconstruction under strong noise conditions. ? 2024 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement.
    Affiliations:(1) Key Laboratory of Spectral Imaging Technology of CAS, Xi’an Institute of Optics and Precision Mechanics of Chinese Academy of Sciences, Xi’an; 710119, China; (2) University of Chinese Academy of Sciences, Beijing; 100049, China; (3) State Key Laboratory of Tropical Oceanography, South China Sea Institute of Oceanology, Chinese Academy of Sciences, Guangzhou; 510301, China; (4) Key Laboratory of Ultra-fast Photoelectric Diagnostics Technology, Chinese Academy of Sciences, Xi’an; 710119, China; (5) State Key Laboratory of Satellite Ocean Environment Dynamics, Second Institute of Oceanography, Ministry of Natural Resources, Hangzhou; 310012, China
    Publication Year:2024
    Volume:32
    Issue:19
    Start Page:33917-33936
    DOI Link:10.1364/OE.535211
    數(shù)據(jù)庫ID(收錄號):20243817055804
  • Record 32 of

    Title:Equivalent Mechanical Model of a Microchannel Plate
    Author Full Names:Zhang, Shengdan(1,2); Bai, Yonglin(1); Cao, Weiwei(1,2); Qin, Junjun(1); Gao, Jiarui(1); Chang, Le(3); Liu, Beihong(3); Hu, Zexun(4); Chu, Zhujun(3); Cong, Xiaoqing(4); Dong, Yongwei(5); Wang, Zhigang(5)
    Source Title:Measurement Science Review
    Language:English
    Document Type:Journal article (JA)
    Abstract:The microchannel plate (MCP) is an electron multiplier with millions of micro through-holes that must withstand strong vibrations and enormous shocks in spaceborne detectors. To ensure the reliability and robustness of the MCP in space applications, we proposed an equivalent mechanical model of the MCP to investigate its mechanical properties, since the direct creation of the finite element model using the finite element method (FEM) is not feasible. Then, we developed a test system to verify the effectiveness of the equivalent mechanical model. The results show that the error of harmonic response analysis and the test result is less than 10 %, which is acceptable. Finally, we conducted parametric studies of the MCPs and obtained the equivalent mechanical model of the MCPs with different geometric parameters. This study will help researchers to optimize the MCP for aerospace-grade detectors. ? 2024 Shengdan Zhang et al., published by Sciendo.
    Affiliations:(1) Key Laboratory of Ultrafast Photoelectric Diagnostic Technology, Xi’an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xinxi Road, No.17, Xi’an; 710119, China; (2) University of Chinese Academy of Sciences, Yanxi Lake East Road, No.1, Beijing; 100049, China; (3) North Night Vision Technology Co., Ltd., Hongwai Road, No.5, Kunming; 650217, China; (4) Nanjing Branch of North Night Vision Technology Co., Ltd., Kangping Street, No.2, Nanjing; 211102, China; (5) Institute of High Energy Physics, Chinese Academy of Sciences, Yuquan Road, No.19, Beijing; 10049, China
    Publication Year:2024
    Volume:24
    Issue:5
    Start Page:174-182
    DOI Link:10.2478/msr-2024-0023
    數(shù)據(jù)庫ID(收錄號):20244617363503
  • Record 33 of

    Title:Optical fibre based artificial compound eyes for direct static imaging and ultrafast motion detection
    Author Full Names:Jiang, Heng(1,2); Tsoi, Chi Chung(1,2); Yu, Weixing(3); Ma, Mengchao(4); Li, Mingjie(1); Wang, Zuankai(5); Zhang, Xuming(1,2,6)
    Source Title:Light: Science and Applications
    Language:English
    Document Type:Journal article (JA)
    Abstract:Natural selection has driven arthropods to evolve fantastic natural compound eyes (NCEs) with a unique anatomical structure, providing a promising blueprint for artificial compound eyes (ACEs) to achieve static and dynamic perceptions in complex environments. Specifically, each NCE utilises an array of ommatidia, the imaging units, distributed on a curved surface to enable abundant merits. This has inspired the development of many ACEs using various microlens arrays, but the reported ACEs have limited performances in static imaging and motion detection. Particularly, it is challenging to mimic the apposition modality to effectively transmit light rays collected by many microlenses on a curved surface to a flat imaging sensor chip while preserving their spatial relationships without interference. In this study, we integrate 271 lensed polymer optical fibres into a dome-like structure to faithfully mimic the structure of NCE. Our ACE has several parameters comparable to the NCEs: 271 ommatidia versus 272 for bark beetles, and 180o field of view (FOV) versus 150–180o FOV for most arthropods. In addition, our ACE outperforms the typical NCEs by ~100 times in dynamic response: 31.3 kHz versus 205 Hz for Glossina morsitans. Compared with other reported ACEs, our ACE enables real-time, 180o panoramic direct imaging and depth estimation within its nearly infinite depth of field. Moreover, our ACE can respond to an angular motion up to 5.6×106 deg/s with the ability to identify translation and rotation, making it suitable for applications to capture high-speed objects, such as surveillance, unmanned aerial/ground vehicles, and virtual reality. ? The Author(s) 2024.
    Affiliations:(1) Department of Applied Physics, The Hong Kong Polytechnic University, 999077, Hong Kong; (2) Photonics Research Institute (PRI), The Hong Kong Polytechnic University, 999077, Hong Kong; (3) Key Laboratory of Spectral Imaging Technology, Xi’an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi’an; 710119, China; (4) Anhui Province Key Laboratory of Measuring Theory and Precision Instrument, School of Instrument Science and Opto-Electronics Engineering, Hefei University of Technology, Hefei; 230009, China; (5) Department of Mechanical Engineering, The Hong Kong Polytechnic University, 999077, Hong Kong; (6) Research Institute for Advanced Manufacturing (RIAM), The Hong Kong Polytechnic University, 999077, Hong Kong
    Publication Year:2024
    Volume:13
    Issue:1
    Article Number:256
    DOI Link:10.1038/s41377-024-01580-5
    數(shù)據(jù)庫ID(收錄號):20243817075668
  • Record 34 of

    Title:Monolithic PMN-39PT nanograting-assisted second harmonic generation enhancement
    Author Full Names:Li, Tianlun(1); Liu, Xin(2); Lu, Yang(3); Gao, Duorui(4); Zhang, Kai(3); Gan, Xuetao(1); Wei, Xiaoyong(2); Xu, Zhuo(2); Zhang, Lei(2)
    Source Title:Optics Express
    Language:English
    Document Type:Journal article (JA)
    Abstract:Second harmonic generation plays a vital role in frequency conversion which mutually promotes the laser technology and allows the wavebands extension of new coherent source. The monolithic crystals are supposed to be a superior choice for harmonic generation due to long interaction distance, however, the phase-mismatch brought a sharp reduction in the conversion efficiency. Although birefringent phase-matching and quasi-phase-matching techniques are commonly utilized to fill the phase gap in monolithic crystals, these techniques are limited by the natural refractive index of crystal and the domain engineering, respectively. In recent years, subwavelength structures evolve as a flexible scheme to realize phase matching by engineering the geometry features of crystals. Here, structured nanogratings are designed and fabricated on a monolithic PMN-39PT (Pb(Mg1/3Nb2/3)O3-0.39PbTiO3) substrate, a novel ferroelectric crystal with promising optical prospect, for enhancing second harmonic generation, where birefringent or quasi phase-matching is hard to achieve. The nanograting-assisted second harmonic generation enhancement is observed which is not limited by the availability of thin crystalline films. Meanwhile, a boost in the second harmonic signal synchronously promotes the cascading third harmonic generation. This method may provide an alternative solution for enhanced harmonic generation on monolithic substrates and develop potential nonlinear optical materials for frequency conversion. ? 2024 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement.
    Affiliations:(1) School of Microelectronics, Northwestern Polytechnical University, Xi’an; 710072, China; (2) Key Laboratory of Physical Electronics and Devices of Ministry of Education, Shaanxi Key Laboratory of Information Photonic Technique, School of Electronic Science and Engineering, Xi’an Jiaotong University, Xi’an; 710049, China; (3) CAS Key Laboratory of Nanophotonic Materials and Devices, Key Laboratory of Nanodevices and Applications, i-Lab, Suzhou Institute of Nano-Tech and Nano-Bionics (SINANO), Chinese Academy of Sciences, Suzhou; 215123, China; (4) State Key Laboratory of Transient Optics and Photonics, Xi’an Institute of Optics and Precision Mechanics of CAS, Xi’an; 710119, China
    Publication Year:2024
    Volume:32
    Issue:6
    Start Page:9237-9244
    DOI Link:10.1364/OE.510869
    數(shù)據(jù)庫ID(收錄號):20241215768412
  • Record 35 of

    Title:Plasma assisted pulsed laser deposition of WO3 films for thermochromism
    Author Full Names:Wan, Feng(1); Li, Lequn(2); Yao, Chujun(1); Jiang, Kai(3); Hu, Zhigao(3); Xu, Ning(1); Sun, Jian(1,4); Wu, Jiada(1)
    Source Title:Materials Chemistry and Physics
    Language:English
    Document Type:Journal article (JA)
    Abstract:Tungsten trioxide (WO3) is one of the extensively investigated transition metal oxides. Its excellent chromogenic properties make WO3 promising for a variety of scientific and technological applications. We report a new method for reactively depositing WO3 films by plasma assisted pulsed laser deposition that combines electron cyclotron resonance microwave discharge and pulsed laser ablation. The plasma formed during film deposition was spectroscopically characterized by optical emission measurement, revealing that the plasma contains high density of reactive gaseous oxygen and tungsten species which are essential for efficiently synthesizing WOx precursors and depositing WO3 films. The structure of the deposited films and the effect of post-deposition thermal annealing on the film structure were characterized by X-ray diffraction and Raman spectroscopy. The as-deposited WO3 film appears amorphous in nature. Annealing resulted in the growth of crystalline grains and the improvement in the crystallinity of monoclinic WO3. Optical properties of the prepared WO3 films were studied by measuring ultraviolet–visible–near infrared transmission spectra. With the increase of annealing temperature, the WO3 films show a continuous change in color, decline in transmittance, red shift in absorption edge, and narrowing in band gap, clearly manifesting the thermochromic features of the deposited WO3 films. ? 2024 Elsevier B.V.
    Affiliations:(1) Engineering Research Center of Ultra-Precision Optical Manufacturing (Shanghai), Department of Optical Science and Engineering, School of Information Science and Technology, Fudan University, Shanghai; 200433, China; (2) School of Optoelectronic Engineering, XiDian University, Shanxi, Xi'an; 710071, China; (3) Technical Center for Multifunctional Magneto-Optical Spectroscopy (Shanghai), Department of Materials, East China Normal University, Shanghai; 200241, China; (4) Yiwu Research Institute of Fudan University, Zhejiang, Yiwu; 322000, China
    Publication Year:2024
    Volume:314
    Article Number:128880
    DOI Link:10.1016/j.matchemphys.2024.128880
    數(shù)據(jù)庫ID(收錄號):20240215360718
  • Record 36 of

    Title:Differentiable design of freeform diffractive optical elements for beam shaping by representing phase distribution using multi-level B-splines
    Author Full Names:Liao, Qingming(1,2); Wang, Haoqiang(3); Feng, Zexin(1,2); Li, Mengmeng(1,2); Luo, Yi(4); Mao, Xianglong(5)
    Source Title:Optics Express
    Language:English
    Document Type:Journal article (JA)
    Abstract:The generation of a specific laser beam profile on the work surface is key to various laser beam shaping tasks, relying heavily on diffractive optical elements (DOEs). Most beam-shaping DOEs are designed using iterative Fourier transform algorithms (IFTAs), which generally have slow convergence and prone to stagnate at local minima. Moreover, the microreliefs generated by IFTAs tend to be irregular, complicating manufacturing and causing uncontrolled scattering of light. We propose a differentiable DOE design method that applies a phase-smoothness constraint using multi-level B-splines. A multi-scale gradient-descent optimization strategy, naturally linked with the multi-level B-splines, is employed to robustly determine the optimized phase distribution that is fully continuous. This, in turn, can lead to more regular DOE microreliefs, which can simplify the fabrication process and be less sensitive to changes in wavelength and working distance. Furthermore, our method can also design a fully continuous freeform lens, distinguished from most freeform lens design approaches by its foundation in physical optics rather than geometrical optics. Simulation and experimental results of several design tasks demonstrate the effectiveness of the proposed method. ? 2024 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement.
    Affiliations:(1) Beijing Engineering Research Center of Mixed Reality and Advanced Display, School of Optics and Photonics, Beijing Institute of Technology, Beijing; 100081, China; (2) MOE Key Laboratory of Optoelectronic Imaging Technology and Systems, Beijing Institute of Technology, Beijing; 100081, China; (3) College of Physics and Optoelectronic Engineering, Shenzhen University, Guangdong, Shenzhen; 518060, China; (4) Beijing National Research Center for Information Science and Technology, Department of Electronic Engineering, Tsinghua University, Beijing; 100084, China; (5) The New Technology Laboratory of Space Photon Information, Xi’an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Shaanxi, Xi’an; 710119, China
    Publication Year:2024
    Volume:32
    Issue:23
    Start Page:41041-41056
    DOI Link:10.1364/OE.533298
    數(shù)據(jù)庫ID(收錄號):20244717382307
国产吃奶A片一区二区| yellow视频在线观看| 巨爆乳肉感一区二区三区视频| 色在线视频导航| 亚洲第一影院| 亚洲福利视频一区| 国产成人亚洲综合a∨婷婷| 成人免费观看网站| 日本伊人激情| 调教她的尿孔(H)| 高清无码免费观看| 国产色哟哟| 国产精品熟女一区二区不卡| 日韩欧美偷拍| 人人操人人之| 国产精品久久久久久白浆| 美女视频毛片| 久久99精品久久免费| 亚洲人成人无码网WWW国产| 久久有精品| 精品国产乱码久久久久久果冻| 国产性爱AV| 黄色小视频网站在线观看| 国产伦精品一区二区三区男技 | 在线观看国产黄片| 久久久久久久久精| 黄网站入口| 在线观看高清无码| 国产操骚逼啊啊啊| 999久久久国产精品| 高清无码二区| 香蕉视频污版| 精品久久九九| 国产制服丝袜在线观看| 漂亮人妻被强A片在线 | 极品白丝 国产| 国产精品成人久久久| 污视频下载| 国产成人精品免高潮在线观看| 丁香激情五月天社区| 超碰在线免费| 国产免费性爱| 精品国产AV色一区二区深夜久久 | 91老肥熟视频| 欧美精品国产| 久久亚洲综合| 婷婷综合久久一区二区三区男男| 日本午夜视频| 久久亚洲AV日韩AV无码A| 成人三级片在线观看| 久久久婷婷| 91少妇精拍在线播放| 成人高清在线无码| 亚洲无码成人网站| 国产精品麻豆入口29| 欧美日韩国产高清| 国产精品一区二区在线播放| 亚洲av一级| 成年人在线观看| 无码人妻一区二区三区在线视频| 91无码| 国产精品久久毛片AV大全日韩| 波多野42部无码喷潮在线| 国产免费无码视频| 又黄又禁视频无遮挡直播| 亚洲国产欧美日韩| 亚洲精品成人无码一区二区三区| 久草人妻在线| 亚洲黄色大片| 亚洲精品www| 日韩在线视频免费观看| 97在线观看| 99人妻碰碰碰久久久久禁片| 黄片免费下载| 中文字幕人妻AV| 影音先锋男人站| 久久99亚洲精品久久99果冻| 性爱黄色亚洲| 国产成人精品无码免费看点牛影视| 99久久精品免费视频| 婷婷色在线视频| 国产人妻无人性无码秀列| av天堂精品| 亚洲AV性爱电影| 啪啪免费在线视频| 婷婷性爱视频| 欧美国产三级| 久久精品欧美一区二区三区不卡| 美女18禁网站| 日韩一区二区在线| 亚洲综合成人小说| 嫩草影院在线免费观看| 全部免费毛片免费播放| 成人aaa| 无码人妻一区二区三区线| 日本一区二区在线看| 大陆毛片| 亚洲自拍小说| AV中文字幕在线| 免费黄片在线| 国产精品国产三级国产| 视频在线观看蜜乳| 日韩中文在线| 国产一区精品| 日本久久高清| 国产99在线视频| 亚洲三级无码| 天天干天天干天天干天天| 免费黄色大片网站| 偷拍一区二区| 99国产在线观看免费视频| 国产成人无码视频一区二区三区| 视频免费1区二区三区| 黄色av网站在线免费观看| 试看120秒一区二区三区| 久久久黄色网| 四虎啪啪视频| 久久国产精品视频| 一区二区三区av| 日韩极品无码| 久久久人妻| 久久久久久久久精品| 韩国一级a做片性全过程| 毛片网站在线看| 69无码| 国产精品久久久久久亚洲色| 欧美黄片儿| 九九热在线观看| 国产精品久久久久久久久久久久| 国产思思| 亚洲精品a| 超碰九九| 欧美日韩中文字幕| 一级特黄大片69| 日日夜夜精品视频| A级重口毛片拳交视频| 欧美一级成人| 成人免费电影网站| 亚洲中文字幕无码AV永久| 红桃视频一区二区无码免费| 超碰99在线| 日本不卡视频| 黄色免费无码视频网站| 亚洲第一黄片| 色欲综合在线| 国产性爱免费视频| 69久久久| 自拍视频在线观看| 欧美三级中文字幕| 最新中文无码| 一级毛片久久久久久久女人18| 欧美1区2区3区| 亚洲少妇无套内射激情视频| 乱色熟女综合一区二区三区四| www.操逼视频| 欧美老熟妇一区二区三区| 无码入口| 中文字幕精品在线| 妞干网视频| 国产无码福利导航| 亚洲jiZZjiZZ日本少妇| 亚洲熟女综合色一区二区三区| 国产激情久久| av免费网站| 日本久久性爱| 真实国产精品亲子伦视频对白| 综合色线视频网站| 亚洲午夜视频| MM1313又粗又大受不了| 国产免费不卡视频| 日韩欧美二区| 久久久久伊人| 国产青草视频| 欧美午夜激情| 亚洲精品www| 天天操夜夜操人人操| 无码一区亚洲| 黄色天堂| 69久久精品无码一区二区| 不卡无码免费| 国产伦精品一区二区三区四区| 一区二区无码在线| 黄片一区二区三区| 欧美狠狠干| 天天插天天操天天干| 欧美一区二区三| 亚洲一级AV无码毛片| 亚洲综合一区二区| 日韩精品第一页| 国产一级性爱| 日本三级不卡| 日本无码专区| 99人妻碰碰碰久久久久禁片| 欧美日韩毛| 国产精品国产三级国产专区51| 大鸡巴网站| 亚洲AV无码乱码| 思思久ren热| 吴梦梦成人免费一区二区| 波多野结衣中文字幕一区二区三区| 国产美女毛片| 免费观看黄色网址| 一级a爰片免费| 一区二区三区日韩欧美| 综合AV网| 精品无码国产一区二区三区高跟 | 午夜高清无码| 中文无码字幕| 91大片| 怡红院av在线| 91popny丨九色丨白丝| 91无码人妻精品国产色欲毛片| 久久亚洲国产精品无码区| 免费AV片| 可乐操| 久久久综合色| 久久婷婷五月| 国产高潮白浆无码| 欧美自拍一区| 日韩AV一卡| 国产伦精品一区二区三区妓国产 | 尤物视频一区| 国产又黄又粗又猛又爽| 91精品国产麻豆国产自产在线| 伊人999| 精品www| 色色视频网站| 欧美小黄片| 国产乱伦视频| 亚洲综合伊人| 少妇高潮喷水久久久久久久久 | 秋霞在线影院| 国产精品极品白嫩在线| 一级全黄60分钟免费网站| 亚洲抽插| 美日韩强奸乱伦经典,视频| 色逼综合| 天堂AV国产一区二区熟女人妻| 强奸乱伦视频第二页| 人人操摸99| 国产操骚逼啊啊啊| 大鸡巴操我视频| 亚洲天堂乱伦| 黄色小视频网站在线观看| 亚洲AV成人www新版精品久久| 日韩城人网站| 无码国产伦一区二区三区视频| 黄片应用下载| 欧美日韩一区在线| 国产网址在线观看| 免费av一区| 国产av一级毛片| 人人操免费| 黄片免费观看| 欧美无砖砖区免费| 天天爽夜夜爽夜夜爽精品| 探花一区二三区四无码| 69精品一区二区三区无码吞精| 91无码| 欧美日日| 精品成人一区二区| 色中只有这里有精品| 岛国高清无码| 日本三级少妇三级99A| 成 人 黄 色 免费 观 看| 久久精品视频一区二区| 8090.aa| 日韩国产精品视频| 麻豆国产在线| 国产在线视频第一页| 色哟呦AV永久免费| 亚洲专区一区| 日本黄色免费网站| 99无码超碰| 亚洲一区二区三区四区在线 | 一区二区三区四区| 亚洲精品18p| 久久思思热| 欧美性久久| 国产无码久久久| 九九九国产| 午夜精品视频在线观看| 日韩一级无码视频| 丁香婷婷色8XXX6799视频| 一区二区三区在线视频| 欧美久久一区二区| 91亚色视频| a天堂在线| 亚洲免费色视频| jlzzjlzz国产精品久久| 亚洲免费人妻视频| 少妇人妻偷人精品无码视频新浪 | www亚洲午夜人美精片V区| 91小视频在线观看| 女人18片毛片90分钟| 免费无码性爱视频| 日韩成人电影在线观看 | 白白色免费视频| 亚洲AV永久无码精品| 久久99久久久无码国产精品按摩| 亚洲无码在线免费观看视频| 久久久精品一区| 亚洲一区二区黄片| 国产日韩欧美一区| 男人的天堂久久| 亚洲无码中文字幕在线| 久久午夜夜伦鲁鲁一区二区| 人人操网| 欧美影院一区二区| 欧美日本一区| 天天拍天天干| 国产精品亚洲一区二区三区在线| 成人超碰| 国产一级片免费观看| 国产精品久久久久久久久久九秃| 真人毛片| 亚洲熟妇av无码无码久久凹凸| 精品无码视频一区二区三区| 好吊视频| 五月伊人网| 日韩欧美性爱| 久久精品国产精品| 国产强奸乱伦精品| 日本精品久久久| 99久久精品毛片无码一区三区| av在线一区二区三区| 日韩少妇人妻| 亚洲精品综合欧美二区变态| 蝌蚪窝视频在线观看| 鲁啊鲁熟女人妻一区二区| 中文字幕国产| 国产人妖| 国产香蕉视频| 亚洲国产高清在线观看| 久久久国产一区二区三区渔网袜| 黄页在线观看| 被老头玩弄的漂亮人妻| 99在线视频观看| 三个男吃我奶头一边一个视频| 91丝袜精品久久久久久无码人妻| 亚洲欧美日韩在线播放| 蜜乳中文无码H| 国产一区二区无码| 成人区精品一区二区| 99久久久无码国产精品无卡 | 一级特黄AAAAA片免费| 亚洲无码免费在线| AV网站免费在线观看| 国产精品成人国产乱一区| 国产一区二区三区三州| 91精品久久久久久粉嫩| 伊人色综合久久久天天蜜桃| 九九久久99| 搡60一70老女人老妇女| 啊v在线| 91人妻在线| 国产一级片免费| 95国产精品人妻无码久| 懂色av一区二区三区免费观看| 人妻视频在线| 午夜成人亚洲理伦片在线观看| 超碰 97一区二区| 久久久久人妻| 麻豆三级| 亚洲乱码毛片在线播放| 欧美三日本三级少妇三| 国产AV一区二区三区 | 粉嫩av一区二区三区在线播放| 国产一区中文字幕| 久久国产AV| 中日韩无码视频| 熟女肥臀白浆大屁股一区二区| 18禁网站免费看| 亚洲人成在线播放| 国产Aⅴ精品| 国产成人一区二区三区| 黄色网址免费| 精品一区二区三区视频| 黄片免费观看视频| 国产精品一区二区三区AV| 小黄片免费观看| 免费无码国产精品| 日本高清老熟妇毛茸茸| 毛茸茸性XXXX毛茸茸| 日韩无码不卡| 国产最新AV| 国产成人AV| 日日日干干干| 色翁荡息又大又硬又粗又爽| 亚洲综合无码| 天天日综合| 四虎最新网址| 无码爱爱| 国产三级片在线免费观看| 久久丫不卡人妻内射中出| 亚洲av色图| 一级AV电影| 无码精品人妻| 精品九九| 人妻在线视频| 公天天吃我奶躁我的在线观看| 国产无码综合| av一区在线| 欧美日韩亚洲性爱电影在线观看| 亚洲无码高清久久精品国产| 国产夜色| 中文字幕91| 乱色熟女综合一区二区三区 | 岛国片免费观看视频| 色就是色欧美| 日本欧美在线播放| 成人免费观看网站| 99在线视频免费观看| 人人爽人人操| 国产另类视频| 国产精品系列在线观看| 不卡一区二区在线| 亚洲免费在线| 91色在线| 日本a级毛不卡| 国产一区二区不卡在线| 97久久超碰| 国产91九色| free性丰满69性欧美| 日韩精品无码一区二区| 欧美精品四区| 夜夜操免费视频| 国产一区在线午夜福利影片观看| 国产成人在线播放| 国产精品久久久久久久久无码ⅴa| 久久综合凹凸国产一区二区三区| 高清成人无码| 亚洲三级片在线| 久久久久久人妻| 色九月婷婷| 日韩国产二区| 日屁视频| 被男人疯狂揉吃奶胸视频| 一区二区三区四区在线播放| 日韩一级黄色| Av天天有| 国产毛片久久久久| 乱熟女高潮一区二区在线| 3d动漫精品一区二区三区| 不卡一区二区在线| 国产精品一区二区不卡| 日本特黄特色aaa大片免费| 成人做爰免费A片视频二机片 | FREEZEFRAME丰满少妇| 91视频网站| 人人操99| 久久99精品视频| 亚洲图片欧美日韩| 日韩三级免费观看| 久草国产在线| 操逼视频无码免费看| 少妇人妻真实偷人精品视频| 欧美一级黄色大片| 日韩黄片免费在线观看| 天天操天天干天天| 久久福利精品| 99国产揄拍国产精品人妻蜜| 精品一区二区在线播放| 右手影院亚洲欧美| 国产精品操逼| 一级黄色电影免费| 一道本在线视频| 2000人人操人人| 麻豆国产在线| 牛色在线| 日本三级黄色| 91福利免费| 在线观看国产视频| 国产成人8X视频一区二区| 亚洲国产永久7777kkk| 91久久精品一区二区别| 日本熟妇乱伦| 久久久久久久久久久高清熟女av粉嫩AV| 91电影在线观看| 日韩肏逼| 欧美另类性爱| 影音先锋女人aV鲁色资源网站| 国产精品久久久久久婷婷天堂| 国产色图乱伦| 亚洲乱伦图片| 日日操日日| 黄网站免费在线观看| 国产精品一区二区免费看| 亚洲AV无码成人精品区国产| 日本中文在线| 91老肥熟女| 五十路在线| 日韩人妻在线视频| 天天爽夜夜爽夜夜爽精品| 亚洲午夜福利| 二区视频在线| 91丝袜精品久久久久久无码人妻| 精品乱伦| 三级片无码在线播放| 黄色日批视频| 亚洲欧美日韩精品久久亚洲区| 日本人妻换人妻毛片| 一区二区三区在线免费观看| 爆乳一区| 在线播放国产一区| 久久久久国产精品| 一级毛片aaa| 91国内产香蕉| 天堂一区二区三区| 国产乱伦免费视频| 福利视频一区| 涩涩视频在线观看| a级特黄毛片| 一级a一级a爰片免费啪啪女女| 国产免费高清视频| 四虎免费看黄| 日本无码成人片在线观看波多| 日本在线观看视频| 国产又粗又黄又爽又硬| 岛国大片国产自| 精品视频国产| 91丨九色丨勾搭| 国产精品国产三级国产普通话一| 国产精品综合久久| 成人一级毛片| 国产精品久久久久久久无码小树林| 国产精品午夜视频| 久久欧美性爱| 正面偷拍女厕36个美女嘘嘘| 国产精品免费无遮挡无码永久视频| 欧美少妇性爱| 一级黄片免费观看| 国产精品激情偷乱一区二区∴| 91中文在线| 夜夜福利| 精品视频网站| 国产精品久久久久无码AV| 无码视频免费看| 久久国产高清视频| 国产精品免费区二区三区观看四虎| 91五月天| 人妻一区二区三区| 国产乱码精品一区二区三区中文 | 人妻体体内射精一区二区| 在线免费看91| 中文人妻熟女乱又乱精品| 操逼欧亚| 亚洲免费人妻视频| 孕妇孕交视频| 国产精品超碰| AV电影在线免费观看| 伊人网在线观看| 婷婷视频在线| av不卡在线| 亚洲AV大片| 高清无码免费在线观看| 成人网址在线观看| 国产嫩草影院久久久久| 99热免费在线观看| 天天干一干| 日韩特黄| 亚洲国产精品无码AV| 青青草无码视频| 69av视频| 国产精品永久免费视频| 亚洲色99| 丰满欧美放荡少妇在线| 人人操人人摸人人干| 少妇高潮一区二区三区99小说| 国产SUV精品一区二区69| 中文字幕成人电影| 小小拗女一区二区三区| 精品久久久久久久久亚洲| 国产成人无码AV| 国产无码精品在线播放| 欧美a视频在线观看| 一级特色黄大片| 91麻豆精品国产| 91.xxx.高清在线| 老熟女太熟了--69XX| 91麻豆国产| 99热精品在线| 久久久久国产一级毛片高清版| 亚洲一区二区人妻| www毛片| 黄色A一级狂操| 日本无码电影| 亚洲天堂一区二区| 国产又粗又猛又大爽| 91精品在线观看视频| AV天堂亚洲无码| 91精品在线视频观看| 疯狂的交换1—6真实交换3和2| 韩国三级| 一级a一级a免费观看视频| 免费A片三p视频| 久久久久人妻精品一区二区红楼梦| 国产精品乱码一区二区三区| 亚洲国产网站| 欧美操屄视频| 人妻中文在线| 2023国产无套免费视频| 91精品国产高清一区二区三蜜臀| 久久99免费视频| 欧美性爱另类| 国产精品久久久久毛片| 国产日本精品| 国产精品IGAO视频| 国产高清成人久久| 八戒午夜福利理论片| 成人无码毛片| 狠狠人妻| 在线看黄网站| 无码精品一区| 又硬又爽又长又粗又大毛片| 免费黄色网页| 国产在线视频第一页| 夜夜天天干| 国产成人在线视频播放| 成人乱人伦一区二区三区| 丰满人妻熟女aⅴ一区| 国产粉嫩呻吟一区二区三区| 麻豆精品一区二区三区| 777婷婷天堂综合区色吧| 国产精品二区在线观看| 日韩美一区二区三区| 日日夜夜草| 国产精品第5页| 一级内射片在线网站观看| 91精品久久久久久粉嫩| 91亚洲视频在线观看| 国产白丝AV| 高清黄片| AV电影院在线观看| 亚洲欧洲无码AAA片在线观看| 国产精品尤物| 国产青青草视频| 成人午夜福利| 亚洲欧美日韩精品永久在线| 亚洲AV无码国产精品| av免费观看网站| 久久久午夜精品福利内容| 欧美一级精品| 无码电影院| 国产在线一区二区| 国产乱码一区二区三区熟女| 精品人妻熟女一区二区三区免费看 | 一级AV电影| 无码午夜视频| 日韩无码电影| 精品视频在线观看99| 国产精品一区二区在线播放| 午夜福利理论片一区二区三区| 香港三日本三级少妇少99| 99国产精品久久久久久久日本竹| china中国妞tubesex| 国产一级a黄荡aaa毛毛大片| 99无码人妻| 精品人妻无码| 国产精品亚洲天堂| 高清无码电影| 久久99精品久久免费| 人妻少妇| 中文在线最新版天堂| 丝袜乱伦视频| 免费av在线| av一区二区三区四区| 亚洲av网站| 久艹视频在线| 男女激情网站| 亚洲欧美一区二区精品久久久| 久久成人毛片| 亚洲av成人精品一区二区三区| 国产69精品久久久久APP下载| 精品国产一区二区三区性色AV| 精品国产99久久久久久| 欧美不卡一区二区| 18禁无遮挡网站| 激情久久久| 北条麻妃99精品青青久久| 影音先锋国产精品| 色天堂网| 六十路熟妇| 国产午夜精品无码理伦片| 精品一区二区三区在线观看| 一级黄色大片免费观看| 色在线视频导航| 中国无码视频| 9l视频自拍蝌蚪9l视频成人 | 中文字幕精品日韩| 麻豆国产视频| 麻豆久久久| 国产一级a毛一级a看免费领取| 无码综合| 亚洲群交| 亚洲精品久久久久玩吗| 五月天狠狠爱| 欧美九九九| 91亚洲天堂| www.国产精品视频| 男人天堂网站| 在线观看黄色av| 中文字幕狠狠玩| 在线视频一区二区三区| 欧美一区二区三区婷婷五月| 少妇特黄一区二区三区| 久久凸凹视频| 欧美亚洲一区二区三区| 中文字幕乱伦| 97国产视频| 精品日韩在线| 日韩精品久久久久久久| 无码免费一区二区| 久久成人毛片| 黄片免费视频| 日韩中文字幕视频| 无码av免费精品一区二区三区| 18禁无码毛片精品久久久久久| 日本中文A片理论片在线观看| 调教妻弟的日日夜夜| 欧美性爱视频在线播放| 男女高潮又爽又黄又无遮挡 | 成人亚洲性情网站WWW在线观看| 曰韩性爱在现视屏| 水蜜桃成人| 国产精品老熟女高潮| 亚洲熟女乱伦| 黑人巨大精品欧美一区二区免费 | 亚洲一区二区高清| 99视频网| 秋霞一区| 黄片免费观看视频| 国产一级a毛一级a看免费人娇| 国产免费一区二区三区最新不卡| 日韩一道本视频| 亚洲蜜桃| 国产成人亚洲综合| 欧美小视频在线观看| 免费一区二区| 精品一区国产| 精人妻无码一区二区三区| 麻豆精品视频| 这里都是精品| 免费一区二区| 欧美一级日韩一级| 无码视屏| 中国美女一级毛片| 亚洲av不卡| 白浆一区| 欧美日韩一区二区三区四区| 久久成人毛片| 久久精品噜噜噜成人| 精品香蕉99久久久久网站| 日韩黄色AV网站| 欧美日韩生活片| 99久久免费看精品国产一区| 亚洲一区二区在线| 97国产视频| 99国产精品久久久久99打野战| 亚洲日本三级片| 中日韩一区二区精品| 国产一级视频在线观看| 日日嗨夜夜嗨一区二区| 看黄免费网站| 另类国产| 欧美黄片在线看| 成人网站免费入口| 欧美激情综合色综合啪啪五月| 精品国产三级| 亚洲视频第一页| 久久久久久久久久一区二区三区| 黄色成年网站| 亚洲成人激情在线| 欧美三级片视频在线观看| 国产99在线| 日韩美女在线| 天天插天天干| 免费黄片在| 亚洲三区在线观看| 亚洲乱码毛片在线播放| 一级大毛片| 一本大道无码| 操逼视频无码免费看| 99草视频| 日韩精品在线视频| 国产精品扒开腿做爽爽爽视频| 亚洲免费一区| 中文字幕手机在线视频| 久久亚洲一区| 91视频网址| 精品国产乱码久久久久久果冻| 美女91| 又大又粗又硬的视频| 精品国产无码在线观看| 一级特黄视频| 色婷婷狠狠| 国产色午夜婷婷一区二区三区| 亚洲AV永久无码精品| 亚洲精品一区二区三区在线观看| 91精品国产色综合久久不卡电影| 色牛Av| 人人妻人人澡人人爽欧美一区双| 欧美插逼视频| 午夜在线一区| 嫩草影院在线免费观看| 国产高清无码一区| 国产AV毛片| 中文字幕免费看| 亚洲第一网站| 99精品欧美一区二区三区黑人| 性v天堂| 欧美另类性爱| 影音先锋国产资源| 欧美人和黑人牲交网站上线| 久久久久国产一级毛片高清版新婚| 中文字幕精品无码| 国产乱伦免费视频| 日本无码免费| 青青操夜夜操| 中文字幕人妻无码系列第三区 | 777奇米第四在线精品视频| 国产三级国产精品国产普男人| 欧美在线视频一区| 69堂国产成人精品视频| 波多野结衣无码中文字幕| 视频一区在线| 中文字幕免费| 色婷婷色| AV电影免费在线观看| 青青草超碰| 亚洲图片第一页| 搡老熟女老女人一区二区| 国产精品无码在线| 老熟妇乱伦视频| 国产69精品久久久久孕妇大杂乱| 国产做受69高潮精品王| 天天躁日日躁狠狠很躁| 亚洲无码免费观看视频| 日韩三级中文字幕| 久久天天操| 亚洲av免费在线| 五月天婷婷丁香花| 国产精品久久久久久久久久久新郎| 国产AV久久久| 成人乱人伦一区二区三区| 日韩午夜av| 污网站在线观看| 麻豆久久久| 国产女人18毛片水真多1KT∧| 囯产私伦一区二区三区| 久久亚洲视频| 日韩免费毛片| 国内精品视频在线观看| 性色AV一区二区三区| 91老肥熟女| 日本三级韩国三级美三级91| 夜夜草天天干| 疯狂的交换1—6真实交换3和2| 少妇伦子伦精品无吗| 五月天综合在线| 玩弄孕妇人妻系列| 黄色性视频网站| 成人精品在线观看| 91一区二区| 欧美乱子伦| 精品视频国产| 亚洲AV激情无码专区在线播放| 免费无高潮片60分钟观看| 国产嫩草一区二区三区在线观看| 日本AA大片在线播放免费看| 国产无码中文字幕| 国内精品久久久| 午夜久久无码成人免费AV麻豆婷| 国产高清无码在线观看| 久久免费视频6| 亚洲精品福利在线| 丝袜熟女脚交足在线一区| 亚洲免费三级| 99久久久国产精品| 黄频网站| 一区二区三区四区中文字幕| www.huangpian日韩| 久久国产精品精品国产色综合| 欧美大成色www永久网站婷| 亚洲人妻中文字幕日韩视频| 国产AV一级片| 91精品久久久久久久久青青| 国产精品嫩草影院com| 一本久道久久| 7777kkkk成人观看| 99精品免费久久久久久久久日本| 午夜黄色小视频| 8090操逼网| 亚洲自拍一区| 久热精品视频| 成人妇女免费播放久久久| 91AV色| 中文字幕精品一区二区三区精品| 亚洲一二三四区| 久久av一区二区三区| 视频国产精品| 99re这里只有| 国产伦精品一区二区三区免费迷奷| 四川一级少妇A片免费| 91久久精品国产91久久公交车| 色诱久久| 日韩一区二区无码| 伊人五月| 少妇浪荡H肉辣文大全69| 亚洲天堂一区| 国产欧美一区二区精品性色超碰| 特级无码| 国产婷婷色一区二区三区在线| 国产一级A片在线观看免费视频| 亚洲精品无码AV电影在线播放| 99无码人妻| 男人j捅女人p| 国产免费小视频| 久久人体| 欧美88| 亚洲午夜福利| 97人人爽人人爽人人爽人人爽| 一级黄片在线| 凹凸AV导航大全精品| 黄页在线观看| 国产精品成人在线| 久久亚洲精品成人AV| 丁香无码|