亚洲精品?Ⅴ无码精品丝袜足-亚洲中文字幕在线网站-久久精品aⅴ无码中文字幕不卡-久久精品免费首页-国产高清欧美亚洲-少妇人妻精品毛片一区二区-久久国产精品亚洲艾草网-国产三级精品国产三级人妇在线-中文字幕日韩精品内射

2025

2025

  • Record 25 of

    Title:Effect of Multi-dressing quantization on three-mode quantum squeezing in Nature Non-Hermitian atomic Ensemble
    Author Full Names:Huang, Cheng; Wei, Jiajia; Zhuang, Rui; Yang, Qinyue; Liu, Ziyang; Feng, Fang; Zhu, Xiangping; Zhao, Wei; Cai, Yin; Zhang, Yanpeng
    Source Title:OPTICS AND LASER TECHNOLOGY
    Language:English
    Document Type:Article
    Keywords Plus:ENTANGLEMENT; SENSITIVITY
    Abstract:This paper reports the three-mode quantum squeezing generated in the four-wave mixing process of dressing field coupled energy level transitions in single 85 Rb vapor. Based on the natural non-Hermitian atomic coherence, the effect of the dressing field on nonlinear gain and quantum squeezing is studied, revealing that when the Rabi frequency of the dressing field is dominant, the dressing field has the advantage of weakening the nonlinear gain of the system but enhancing the three-mode quantum squeezing. However, when the de-phase rate of energy level is dominant, the dressing field has the advantage of enhancing the nonlinear gain characteristics even though the three-mode quantum squeezing is relatively weakened. It can be used for quantum information processing and development of quantum memory devices with enhanced sensitivity in the future.
    Addresses:[Huang, Cheng; Wei, Jiajia; Zhuang, Rui; Yang, Qinyue; Liu, Ziyang; Feng, Fang; Cai, Yin; Zhang, Yanpeng] Xi An Jiao Tong Univ, Sch Elect Sci & Engn, Key Lab Phys Elect & Devices, Shaanxi Key Lab Informat Photon Tech,Minist Educ, Xian 710049, Shaanxi, Peoples R China; [Huang, Cheng; Feng, Fang; Zhu, Xiangping; Zhao, Wei] Chinese Acad Sci, Xian Inst Opt & Precis Mech, Xian 710119, Peoples R China; [Huang, Cheng; Feng, Fang; Zhu, Xiangping; Zhao, Wei] Univ Chinese Acad Sci, Beijing 100049, Peoples R China
    Affiliations:Xi'an Jiaotong University; Chinese Academy of Sciences; Xi'an Institute of Optics & Precision Mechanics, CAS; Chinese Academy of Sciences; University of Chinese Academy of Sciences, CAS
    Publication Year:2025
    Volume:183
    Article Number:112310
    DOI Link:http://dx.doi.org/10.1016/j.optlastec.2024.112310
    數(shù)據(jù)庫ID(收錄號):WOS:001390553800001
  • Record 26 of

    Title:Leveraging central-surrounding receptive fields for single image dehazing
    Author Full Names:Tang, Zhifeng; Zhang, Yunyao; Zhang, Peng; Dong, Wenkang; Zhang, Zhiyong; Zhang, Xingguang; Zhang, Ning
    Source Title:NEUROCOMPUTING
    Language:English
    Document Type:Article
    Keywords Plus:NETWORK; HAZE
    Abstract:Image dehazing is a representative low-level vision task that estimates latent haze-free images from hazy images. In recent years, Vision Transformers (ViT) have shown promising dehazing performance, leveraging their capacity for global perception through long-sequence dependencies in cost of high resource consumption. Therefore, our approach seeks to integrate the utilization of global information into the Convolutional Neural Network (CNN) framework in a more resource-efficient manner. In this paper, we introduce the Adaptive Center-Surround Receptive Field (ACSRF) network architecture inspired by the central-peripheral receptive field in biological vision for single-image haze removal. This leads to a unique receptive field mechanism that effectively combines both central and surrounding information. Our ACRSF addresses this by initially compressing global information and then merging it within the CNN, significantly boosting the capability to integrate local and global information, and effectively handling dominant color tones. Experimental results on four publicly available real-world image dehazing datasets show that our ACRSF outperforms current state-of-the-art methods in recovering global information, especially in dominant color tones. Importantly, this technology demonstrates its effectiveness in realistic scenarios, contributing significantly to improving traffic safety in adverse weather conditions. The code is available at https://github.com/JavanTang/ACSRF.
    Addresses:[Tang, Zhifeng; Zhang, Yunyao; Dong, Wenkang; Zhang, Zhiyong; Zhang, Xingguang] Northwest Univ, Sch Informat Sci & Technol, Xian 710127, Peoples R China; [Tang, Zhifeng] China Elect Technol Grp Corp 20th Res Inst, Xian 710071, Peoples R China; [Zhang, Peng] Northwestern Polytech Univ, Sch Comp Sci, Xian 710129, Peoples R China; [Zhang, Ning] Xian Inst Opt & Precis Mech CAS, Key Lab Spectral Imaging Technol, Xian 710119, Peoples R China
    Affiliations:Northwest University Xi'an; Northwestern Polytechnical University; Chinese Academy of Sciences; Xi'an Institute of Optics & Precision Mechanics, CAS
    Publication Year:2025
    Volume:618
    Article Number:129075
    DOI Link:http://dx.doi.org/10.1016/j.neucom.2024.129075
    數(shù)據(jù)庫ID(收錄號):WOS:001386468300001
  • Record 27 of

    Title:Low-light image enhancement via illumination optimization and color correction
    Author Full Names:Zhang, Wenbo; Xu, Liang; Wu, Jianjun; Huang, Wei; Shi, Xiaofan; Li, Yanli
    Source Title:COMPUTERS & GRAPHICS-UK
    Language:English
    Document Type:Article
    Keywords Plus:RETINEX
    Abstract:The issue of low-light image enhancement is investigated in this paper. Specifically, a trainable low-light image enhancer based on illumination optimization and color correction, called LLOCNet, is proposed to enhance the visibility of such low-light image. First, an illumination correction network is designed, leveraging residual and encoding-decoding structure, to correct the illumination information of the V-channel for lighting up the low-light image. After that, the illumination difference map is derived by difference between before and after luminance correction. Furthermore, an illumination-guided color correction network based on illumination- guided multi-head attention is developed to fine-tune the HS color channels. Finally, a feature fusion block with asymmetric parallel convolution operation is adopted to reconcile these enhanced features to obtain the desired high-quality image. Both qualitative and quantitative experimental results show that the proposed network favorably performs against other state-of-the-art low-light enhancement methods on both real-world and synthetic low-light image dataset.
    Addresses:[Zhang, Wenbo; Xu, Liang; Wu, Jianjun; Huang, Wei; Shi, Xiaofan] Chinese Acad Sci, Lab Aeronaut Optoelect Technol, Xian Inst Opt & Precis Mech, Xian 710119, Shaanxi, Peoples R China; [Li, Yanli] Northwestern Polytech Univ, Sch Marine Sci & Technol, Xian 710072, Shaanxi, Peoples R China
    Affiliations:Chinese Academy of Sciences; Xi'an Institute of Optics & Precision Mechanics, CAS; Northwestern Polytechnical University
    Publication Year:2025
    Volume:126
    Article Number:104138
    DOI Link:http://dx.doi.org/10.1016/j.cag.2024.104138
    數(shù)據(jù)庫ID(收錄號):WOS:001383763200001
  • Record 28 of

    Title:A novel turbidity compensation method for fluorescence spectroscopy and application in the detection of two algae species
    Author Full Names:Li, Ruizhuo; Dong, Jing; Wu, Guojun; Gao, Limin; Yang, Min
    Source Title:SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY
    Language:English
    Document Type:Article
    Abstract:Turbidity interference in measurements can reduce the accuracy of fluorescence detection. Conventional turbidity compensation methods directly establish the relationship between turbidity value and fluorescence but cannot accurately characterize the complex interference of turbidity on fluorescence detection. This paper introduces a novel turbidity compensation technique that separates the interference caused by turbidity particles into scattering intensifying and scattering-absorption attenuating components and corrects them separately. First, the scattering spectrum overlapping with fluorescence is estimated and subtracted from the actual sample spectrum to mitigate the fluorescence intensification caused by scattering. Then, attenuation coefficients at different turbidity intervals are calculated to compensate for fluorescence attenuation. Finally, the two components are combined to obtain the final corrected result. Based on the proposed method, the fluorescence spectra data of Platymonas helgolandica var. tsingtaoensis and Synechococcus elongatus undeod is evaluated. The core problem for comper different turbidity interferences were analyzed. Intensifying and attenuating coefficients based on turbidity values and scattering spectra were determined, ensuring adaptability to known and unknown turbidity conditions. The study results show that the fluorescence variation at different concentrations and turbidity levels are influenced by sample concentration and turbidity, exhibiting nonlinear behavior. The compensation model developed was applied to experimental data, achieving a mean relative error of less than 4% and a satisfactory root-mean-square error, significantly enhancing prediction accuracy. This method offers a straightforward and rapid application to detect a wide range of fluorescent substances.
    Addresses:[Li, Ruizhuo; Dong, Jing; Wu, Guojun; Gao, Limin] Chinese Acad Sci, Xian Inst Opt & Precis Mech, Xian 710119, Peoples R China; [Li, Ruizhuo; Dong, Jing] Univ Chinese Acad Sci, Coll Photoelect, Beijing 100049, Peoples R China; [Wu, Guojun] Laoshan Lab, Qingdao 266237, Peoples R China; [Yang, Min] Minist Nat Resources, North China Sea Marine Tech Ctr, Qingdao 266033, Peoples R China
    Affiliations:Chinese Academy of Sciences; Xi'an Institute of Optics & Precision Mechanics, CAS; Chinese Academy of Sciences; University of Chinese Academy of Sciences, CAS; Laoshan Laboratory; Ministry of Natural Resources of the People's Republic of China
    Publication Year:2025
    Volume:329
    Article Number:125510
    DOI Link:http://dx.doi.org/10.1016/j.saa.2024.125510
    數(shù)據(jù)庫ID(收錄號):WOS:001374405600001
  • Record 29 of

    Title:Enhancement of the Gain and Stability in a Discrete Dynode Electron Multiplier Through Differential Voltage Distribution Among Dynodes
    Author Full Names:Yang, Jishi; Li, Jie; Zhao, Wanru; He, Li; Wang, Ruozheng; Zhao, Yuan; Hu, Wenbo; Tian, Jinshou; Wu, Shengli
    Source Title:IEEE TRANSACTIONS ON ELECTRON DEVICES
    Language:English
    Document Type:Article
    Keywords Plus:EMISSION
    Abstract:We proposed an effective strategy involvinga differential distribution of voltages among dynodes tosignificantly enhance the gain and stability of discrete dyn-ode electron multipliers (DEMs) under continuous electronbombardment. The effects of the differential voltage distri-bution on the DEM performance were systematically inves-tigated through experiments and numerical simulations.The differential voltage distribution of 7:7:7:7:7:5:5:5:5enables the DEM to achieve a gain of 3.4x104, repre-senting a substantial increase by 2.1 times at an operatingvoltage of 1200 V, and the operating voltage at a gain of106to be reduced to 1949 V with a decrease of 186 Vin comparison to the traditional uniform voltage distribu-tion of 1:1:1:1:1:1:1:1:1. The gain enhancement is closelyrelated to the increased average secondary electron emis-sion (SEE) coefficients of dynodes D2-D6 and the improvedelectron collection efficiencies of dynodes D3 and D6. Addi-tionally, the differential voltage also reduced the gain decayrate to 16.7%/mC, reflecting a decrease of 14.8% due tothe suppression of SEE degradations in dynodes D7-D9,which can be attributed to their lower average SEE coeffi-cients. Overall, the proposed strategy of differential voltagedistribution, characterized by higher voltages among ear-lier dynodes and lower voltages among latter dynodes,presents a novel and universal approach for optimizing thestructure of electron multipliers, addressing the need forhighly sensitive and reliable detection of ultraweak or evensingle charged particles.
    Addresses:[Yang, Jishi; Li, Jie; Zhao, Wanru; Wang, Ruozheng; Zhao, Yuan; Hu, Wenbo; Wu, Shengli] Xi An Jiao Tong Univ, Sch Elect Sci & Engn, Key Lab Phys Elect & Devices, Minist Educ, Xian 710049, Peoples R China; [He, Li] Chinese Acad Sci, Inst Semicond, State Key Lab Superlatt & Microstruct, Beijing 100083, Peoples R China; [Tian, Jinshou] Chinese Acad Sci, Xian Inst Opt & Precis Mech, Key Lab Ultrafast Photoelect Diagnost Technol, Xian 710119, Peoples R China
    Affiliations:Xi'an Jiaotong University; Chinese Academy of Sciences; Institute of Semiconductors, CAS; Chinese Academy of Sciences; Xi'an Institute of Optics & Precision Mechanics, CAS
    Publication Year:2025
    Volume:72
    Issue:1
    Start Page:439
    End Page:444
    DOI Link:http://dx.doi.org/10.1109/TED.2024.3503536
    數(shù)據(jù)庫ID(收錄號):WOS:001372006100001
  • Record 30 of

    Title:Bulk damage growth characteristics and ultrafast diagnosis of fluoride-containing phosphate glasses induced by 355-nm laser
    Author Full Names:Li, Shengwu; Jiang, Yong; Wan, Rui; Wang, Pengfei
    Source Title:OPTICS AND LASER TECHNOLOGY
    Language:English
    Document Type:Article
    Keywords Plus:FUSED-SILICA OPTICS; BREAKDOWN; ABLATION
    Abstract:To comprehensively reveal the influence regularity of different glass melting temperatures on the ultraviolet (UV) laser-induced damage resistance of fluoride-containing phosphate glasses, the initial bulk damage, damaged growth, and dynamic behaviors of both fundamental-frequency (1w) absorptive and third-harmonicfrequency (3w) transparent fluoride-containing phosphate glasses are explored utilizing the time-resolved pump-probe shadowgraph technique. A low-temperature (1000 degrees C) glass melting process resulted in an increase in the absorption coefficient at 355 nm and decrease in the optical bandgap for the 1w absorptive glass. The produced 1w absorptive glass was subjected to higher shock pressure and shock temperature on the rear surface after a single-pulse laser irradiation, and had a more serious filamentation damage accompanied by a funnel-shape morphology. With the subsequent multiples irradiation, the initial bulk damage area increased exponentially with a growth coefficient of 0.72. The corresponding exponential growth coefficient for the counterpart 1w absorptive glass melted at a high temperature (1200 degrees C) was only 0.32 due to its slight initial bulk damage. In contrast, for the 3w transparent glass, the high-temperature (1200 degrees C) melting process led to a larger initial bulk damage area and largest exponential growth coefficient of 0.91, 1.1 times that of the 3w transparent glass melted at a low temperature (1000 degrees C). They exhibited wave-packed damaged morphologies extending from the rear surface into the glass body. The melting temperatures exhibited the opposite influence regularity for these two investigated fluoride-containing phosphate glasses. The high-temperature (1200 degrees C) melting process favored the improvement in UV laser-induced damage resistance of the 1w absorptive glass, as evidenced by the higher UV laser-induced damage threshold and lower damage growth coefficient, while the low-temperature (1000 degrees C) melting process exerted similar effects on the 3w transparent glass.
    Addresses:[Li, Shengwu; Wan, Rui; Wang, Pengfei] Chinese Acad Sci, Xian Inst Opt & Precis Mech, State Key Lab Transient Opt & Photon, Xian 710119, Shaanxi, Peoples R China; [Li, Shengwu] Northwest Inst Nucl Technol, State Key Lab Laser Interact Matter, Xian 710024, Shaanxi, Peoples R China; [Jiang, Yong] Southwest Univ Sci & Technol, Sch Sci, Mianyang 621010, Peoples R China; [Jiang, Yong] Southwest Univ Sci & Technol, Joint Lab Extreme Condit Matter Properties, Mianyang 621010, Peoples R China
    Affiliations:State Key Laboratory of Transient Optics & Photonics; Chinese Academy of Sciences; Xi'an Institute of Optics & Precision Mechanics, CAS; Northwest Institute of Nuclear Technology - China; Southwest University of Science & Technology - China; Southwest University of Science & Technology - China
    Publication Year:2025
    Volume:182
    Article Number:112222
    DOI Link:http://dx.doi.org/10.1016/j.optlastec.2024.112222
    數(shù)據(jù)庫ID(收錄號):WOS:001372118900001
  • Record 31 of

    Title:2.6 GW, mJ-class high-energy femtosecond laser system based on Yb:YAG single-crystal fiber amplifier
    Author Full Names:Cao, Xue; Li, Feng; Wang, Yishan; Zhao, Hualong; Zhao, Wei; Li, Qianglong; Xing, Jixin; Wen, Wenlong; Si, Jinhai
    Source Title:INFRARED PHYSICS & TECHNOLOGY
    Language:English
    Document Type:Article
    Keywords Plus:YB-DOPED FIBER; PEAK-POWER; PULSE; AMPLIFICATION; YB/YAG; FS; ABSORPTION; AVERAGE
    Abstract:High-peak-intensity ultrafast fiber lasers show excellent prospect for ultrafast science and industrial applications. For simplicity as well as efficiency, chirped-pulse amplification (CPA) is an effective technique for the generation of high-energy sources and single crystal fiber (SCF) also shows great potential due to its convenient configuration. In this work, a high-peak-power hybrid CPA pulsed laser system based on a three-stage single-pass endpumped Yb:YAG SCF amplifier is experimentally demonstrated. The amplification system emitted pulses with the maximum power of 103.2 W at 100 kHz repetition rate and we obtained the compressed output power of 84.2 W, corresponding to the pulse energy of 0.84 mJ. Considering the third order dispersion that induced by the stretcher and the accurate tuning effect for higher-order dispersion compensation of chirped fiber Bragg grating, we have demonstrated a nearly transform limited output pulse duration of 323 fs with the peak power exceeding 2.6 GW. It can be said that we present the results for the first implementation of the shortest pulse duration and highest peak power in such multi-stage Yb:YAG SCF amplifier. The well-preserved beam quality with the measured M2 value of 1.22 and 1.29 for the horizontal and vertical directions at the maximum achieved average power. With such outstanding combined features, the demonstrated high-energy ultrafast fiber lasers would enable broad applications.
    Addresses:[Cao, Xue; Li, Feng; Wang, Yishan; Zhao, Hualong; Zhao, Wei; Li, Qianglong; Xing, Jixin; Wen, Wenlong] Chinese Acad Sci, Xian Inst Opt & Precis Mech, State Key Lab Transient Opt & Photon, Xian 710119, Peoples R China; [Cao, Xue; Si, Jinhai] Xi An Jiao Tong Univ, Key Lab Phys Elect & Devices, Minist Educ, Xian 710049, Peoples R China; [Cao, Xue; Si, Jinhai] Xi An Jiao Tong Univ, Sch Elect & Informat Engn, Shaanxi Key Lab Informat Photon Tech, Xian 710049, Peoples R China; [Cao, Xue] Univ Chinese Acad Sci, Beijing 100049, Peoples R China
    Affiliations:State Key Laboratory of Transient Optics & Photonics; Chinese Academy of Sciences; Xi'an Institute of Optics & Precision Mechanics, CAS; Xi'an Jiaotong University; Xi'an Jiaotong University; Chinese Academy of Sciences; University of Chinese Academy of Sciences, CAS
    Publication Year:2025
    Volume:144
    Article Number:105643
    DOI Link:http://dx.doi.org/10.1016/j.infrared.2024.105643
    數(shù)據(jù)庫ID(收錄號):WOS:001370534400001
  • Record 32 of

    Title:Opto-mechanical-thermal integration design of the primary optical system for a tri-band aviation camera
    Author Full Names:Zhang, Kailin; Pan, Yue; Xu, Xiping; Xu, Liang; Liu, Wancheng; Hu, Motong; Lu, Yi; Cao, Yajie
    Source Title:MEASUREMENT
    Language:English
    Document Type:Article
    Abstract:This paper presents a tri-band aviation camera that integrates short-wave infrared (SWIR, 0.9-1.7 mu m), mid-wave infrared (MWIR, 3.7-4.8 mu m) and visible (VIS, 0.486-0.656 mu m) bands into a primary optical system and three subsystems, to enhance optical remote sensing capabilities. The focus is on opto-mechanical-thermal integration to effectively manage thermal stress and minimise deformation. Finite Element Analysis is employed to extract Zernike coefficients for deformation analysis, facilitating a comprehensive assessment of the camera's performance across a temperature range of -40 degrees C to 60 degrees C. An innovative flexible support system is integrated to maintain the optimal surface figure of the primary mirror, further reducing thermal effects. Extensive empirical testing, including resolution and wavefront error detection, has validated the system's robustness under various thermal conditions.
    Addresses:[Zhang, Kailin; Pan, Yue; Xu, Xiping; Hu, Motong; Lu, Yi; Cao, Yajie] Changchun Univ Sci & Technol, 7186 Weixing Rd, Changchun 130022, Jilin, Peoples R China; [Xu, Liang] Chinese Acad Sci, Xian Inst Opt & Precis Mech, Xian 710119, Shaanxi, Peoples R China; [Liu, Wancheng] Natl Key Lab Electromagnet Space Secur, Jiaxing, Peoples R China
    Affiliations:Changchun University of Science & Technology; Chinese Academy of Sciences; Xi'an Institute of Optics & Precision Mechanics, CAS
    Publication Year:2025
    Volume:242
    Article Number:116319
    DOI Link:http://dx.doi.org/10.1016/j.measurement.2024.116319
    數(shù)據(jù)庫ID(收錄號):WOS:001371550200001
  • Record 33 of

    Title:A data processing method for multispectral emissivity and temperature with the introduction of new objective function and nonlinear constraints
    Author Full Names:Yang, Longjie; Bai, Yonglin; Zheng, Jinkun; Wang, Bo
    Source Title:OPTICS COMMUNICATIONS
    Language:English
    Document Type:Article
    Keywords Plus:RADIATION; ALGORITHM; OPTIMIZATION; SURFACES
    Abstract:The underdetermined equation in multispectral pyrometer temperature measurement involves simultaneous unknowns of emissivity and temperature, posing a challenging obstacle to achieving accurate temperature inversion. In recent years, constrained optimization algorithms have been increasingly employed to address this issue. However, these algorithms need to set the appropriate initial emissivity values in particular and the imposition of manual constraints on the search range for emissivity. In this paper, a new data processing method that does not require these artificial Settings is proposed. Our method incorporates new objective functions and nonlinear constraints into the inversion of multispectral emissivity and temperature, while employing the Barrier Function Interior Point Method as an optimization tool. In addition, it has to be mentioned that in the blackbody temperature setting of the reference temperature model, the temperature of the blackbody is set very close to the target temperature by the constrained optimization algorithm, which obviously does not meet the needs of large-scale temperature measurement. The data processing method proposed in this paper addresses situations where there is a significant difference between the blackbody set temperature and the target temperature, ensuring both accuracy and speed over a wide range. Experiments demonstrate that our proposed method achieves a relative error of less than 0.42% in emissivity inversion, less than 0.57% in temperature inversion, and a calculation time of under 0.2 s. Our method can be applied to some high-precision and fast temperature measurement occasions that require short processing time and small relative error.
    Addresses:[Yang, Longjie; Bai, Yonglin; Zheng, Jinkun; Wang, Bo] Chinese Acad Sci, Xian Inst Opt & Precis Mech, 17 Informat Ave, Xian 710119, Peoples R China; [Yang, Longjie] Univ Chinese Acad Sci, 1 Yanqihu East Rd, Beijing 101408, Peoples R China
    Affiliations:Chinese Academy of Sciences; Xi'an Institute of Optics & Precision Mechanics, CAS; Chinese Academy of Sciences; University of Chinese Academy of Sciences, CAS
    Publication Year:2025
    Volume:576
    Article Number:131311
    DOI Link:http://dx.doi.org/10.1016/j.optcom.2024.131311
    數(shù)據(jù)庫ID(收錄號):WOS:001371932100001
  • Record 34 of

    Title:Soliton patterns recognition and searching from a 2 μm intelligent mode-locked fiber laser agent
    Author Full Names:Yao, Tianchen; Qi, Liwen; Zheng, Fangfang; Zhou, Wei; Kang, Hui; Zhu, Qiang; Song, Xiaozhao; Liu, Guangmiao; Xu, Shengzhou; Zhang, Qianwei; Wang, Haotian; Wang, Fei; Wang, Yishan; Jia, Baohua; Shen, Deyuan
    Source Title:OPTICS AND LASER TECHNOLOGY
    Language:English
    Document Type:Article
    Abstract:The negative dispersion of silica fibers near 2 mu m wavelength leads to formations of attractive soliton-patterns in Thulium-doped mode-locked fiber lasers (TDMLFL), including single-solitons(SS), bound-solitons(BS), multisolitons(MS), soliton molecules(SM), as well as noise-like pulses(NLP). However, the current manual or physically controlled methods cannot accurately identify and quickly adjust the diverse solitons. Here, we successfully realized the fine identification and automatic searching of continuous waves, Q-switching, noise-like pulses, multi-solitons, and single-solitons by constructing a genetic algorithm based self-tuning pump power and time- spectrum feedback agent in a TDMLFL. The searched SS have a duration of 1.269 ps, a central wavelength of 1966 nm and a typical Kelly-sideband spectrum. The minimum consuming time of globally finding a singlesoliton is-40 mins, and the corresponding recovery-time is-2 mins. To the best of our knowledge, this is the first time that an intelligent searching and recognition of single soliton in 2 mu m TDMLFL and also the first report of soliton-patterns fully intelligent identification and searching without prior parameters in soliton mode locked fiber lasers.
    Addresses:[Yao, Tianchen; Qi, Liwen; Zheng, Fangfang; Zhou, Wei; Kang, Hui; Zhu, Qiang; Song, Xiaozhao; Liu, Guangmiao; Xu, Shengzhou; Zhang, Qianwei; Wang, Haotian; Shen, Deyuan] Jiangsu Normal Univ, Sch Phys & Elect Engn, Jiangsu Key Lab Adv Laser Mat & Devices, Xuzhou 221116, Peoples R China; [Yao, Tianchen; Zhou, Wei; Kang, Hui; Zhu, Qiang; Song, Xiaozhao; Liu, Guangmiao; Wang, Fei; Shen, Deyuan] Jiangsu Inst Mid Infrared Laser Technol & Applicat, Xuzhou 221000, Peoples R China; [Wang, Yishan] Chinese Acad Sci, Xian Inst Opt & Precis Mech, State Key Lab Transient Opt & Photon, Xian 710119, Peoples R China; [Jia, Baohua] RMIT Univ, Australian Res Council ARC, Ind Transformat Training Ctr Surface Engn Adv Mat, Melbourne, Vic 3000, Australia
    Affiliations:Jiangsu Normal University; State Key Laboratory of Transient Optics & Photonics; Chinese Academy of Sciences; Xi'an Institute of Optics & Precision Mechanics, CAS; Royal Melbourne Institute of Technology (RMIT)
    Publication Year:2025
    Volume:182
    Article Number:112125
    DOI Link:http://dx.doi.org/10.1016/j.optlastec.2024.112125
    數(shù)據(jù)庫ID(收錄號):WOS:001358702400001
  • Record 35 of

    Title:Fluorescence temperature dependent behaviors of Eu3+/Mn4+co-doping cubic and hexagonal ZnO-TiO2 compounds: Application in high sensitive optical thermometers
    Author Full Names:Sun, Chengmei; Xu, Chengcheng; Ren, Wenzhen; Hu, Fengya; Yuan, Jun; Wang, Qingru; Xie, Yanru; Wang, Kai; Zhang, Dong
    Source Title:JOURNAL OF ALLOYS AND COMPOUNDS
    Language:English
    Document Type:Article
    Keywords Plus:PHOTOLUMINESCENCE PROPERTIES; CRYSTAL-STRUCTURE; POTENTIAL APPLICATION; HIGH-PRESSURE; RED PHOSPHOR; ZNTIO3; EMISSION; STABILITY; PROPERTY; SPECTRA
    Abstract:ZnTiO3:Eu3+,Mn4+ phosphors with hexagonal and cubic structure are synthesized by solvothermal method. The structure of ZnTiO3 depends on precursors and the annealing temperature. Inverse spinel Zn2TiO4 phase reveals the highest thermostability compared with cubic ZnTiO3 and hexagonal ZnTiO3 phases. The different phases of ZnTiO3 crystals exhibit different photoluminescence properties. The forbidden transition of 4A2g -> 2T2g for Mn4+ is observed in Zn2TiO4 and hexagonal ZnTiO3 (h-ZnTiO3) due to the decreased symmetry. The zero photon line (ZPL) assigned to 2Eg -> 4A2g transition of Mn4+ is absent in all type ZnTiO3 phases. A sharp emission peak at 714 nm assigned to nu 6 (Stokes emission) mode of Mn4+ in h-ZnTiO3 is present when the temperature was below 270 K, and increases sharply in intensity with the temperature decreasing. The similar PL spectra of cubic ZnTiO3 and Zn2TiO4 co-doped with Eu3+ and Mn4+ show a wide emission band composed of Stokes and anti-Stokes modes. The calculated nephelauxetic parameter increases from 0.84 to 1.03 and 1.18 for Mn4+ in h-ZnTiO3, cubic ZnTiO3 and Zn2TiO4, respectively, indicating the covalency decreasing, which causes the red shift of ZPL in h-ZnTiO3. The Mn4+ emissions show stronger temperature dependence than that of Eu3+, especially for that in hZnTiO3 matrix. Based on the fluorescence intensity ratio between I Eu 3+ and I Mn4+ , the highest relative temperature sensitivity of 2.46 %K- 1 is observed in cubic ZnTiO3 (c-ZnTiO3) and Zn2TiO4. Under the excitation at 550 nm, the highest relative sensitivity of 2.9 %K- 1 is achieved in c- and h-ZnTiO3 mixed phases.
    Addresses:[Sun, Chengmei; Xu, Chengcheng; Hu, Fengya; Yuan, Jun; Wang, Qingru; Xie, Yanru; Wang, Kai; Zhang, Dong] Liaocheng Univ, Sch Phys Sci & Informat Technol, Shandong Key Lab Opt Commun Sci & Technol, Liaocheng 252059, Peoples R China; [Ren, Wenzhen] Chinese Acad Sci, State Key Lab Transient Opt & Photon, Xian Inst Opt & Precis Mech, Xian 710119, Peoples R China
    Affiliations:Liaocheng University; Chinese Academy of Sciences; Xi'an Institute of Optics & Precision Mechanics, CAS; State Key Laboratory of Transient Optics & Photonics
    Publication Year:2025
    Volume:1010
    Article Number:177374
    DOI Link:http://dx.doi.org/10.1016/j.jallcom.2024.177374
    數(shù)據(jù)庫ID(收錄號):WOS:001357057400001
  • Record 36 of

    Title:X-ray communication system with high-repetition-rate pulsed X-ray source and LYSO(Ce) and YAP(Ce) scintillators
    Author Full Names:Li, Yun; Su, Tong; Sheng, Lizhi; Zhang, Ruili; Chen, Junfeng; Wang, Bo; Qiang, Pengfei
    Source Title:NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT
    Language:English
    Document Type:Article
    Abstract:X-ray communication offers significant advantages over traditional microwave methods due to its shorter wavelength and higher theoretical bandwidth, enabling efficient space communication and penetration through complex electromagnetic environments. However, current systems face limitations in X-ray emission modulation and high-precision timing detection. To meet the high-frequency transmission demands of space missions, we developed a pulsed X-ray emission source capable of high-frequency modulation. Additionally, we identified specific scintillators with distinct advantages for different transmission frequency ranges, allowing for performance optimization. Experimental results demonstrated a successful transmission rate of 10 MHz, validating the feasibility of MHz-frequency X-ray communication.
    Addresses:[Li, Yun; Su, Tong; Sheng, Lizhi; Zhang, Ruili; Wang, Bo; Qiang, Pengfei] Chinese Acad Sci, Xian Inst Opt & Precis Mech, State Key Lab Transients Opt & Photon, Xian 710119, Peoples R China; [Li, Yun] Univ Chinese Acad Sci, Beijing 100049, Peoples R China; [Chen, Junfeng] Chinese Acad Sci, Shanghai Inst Ceram, Shanghai 201899, Peoples R China
    Affiliations:Chinese Academy of Sciences; Xi'an Institute of Optics & Precision Mechanics, CAS; Chinese Academy of Sciences; University of Chinese Academy of Sciences, CAS; Chinese Academy of Sciences; Shanghai Institute of Ceramics, CAS
    Publication Year:2025
    Volume:1070
    Article Number:170022
    DOI Link:http://dx.doi.org/10.1016/j.nima.2024.170022
    數(shù)據(jù)庫ID(收錄號):WOS:001356647400001
国产熟女AAAAA片| 国产成人一区二区三区A片免费| 日韩久久久久久| 国产激情偷乱视频一区二区三区| 欧美一区二区三区免费A片老妇人| 色先锋资源| 免费看毛片网站| 国产成人久久久精品| 操碰视频| 一本一本久久a久久精品牛牛影视| av中文网| 久久手机视频| 一区二区激情| 欧美国产中文字幕| 一区二区三区日韩| 春色AV| 国产精品综合久久| 日韩久久人妻| 老妇高潮潮喷到猛进猛出| 欧美性爱综合区| 欧美一级特黄A片免费看视频小说| 国产精品无码一区二区三区绿巨人| 中文字幕在线观看第一页| 草草影院第一页| 中文制服丝袜熟女AV亚洲| 欧美日韩在线观看视频| 亚洲熟女乱综合一区二区| 一起操无码| 国产免费A∨片在线观看不卡| 日本三级网站| 性免费视频| 天天日天天日天天干| 秋霞在线| 狠狠做深爱婷婷久久综合一区| 精品午夜一区二区三区在线观看| 久久无码人妻精品一区二区三区| 日韩激情AV| 香蕉视频毛片| 亚洲无码一二三| 日本无码免费A片无码视频| 熟女乱伦av| 性爱欧美第二区| 99热在线观看| 亚洲一区二区三区中文字幕| 另类一区| 欧美一区二区在线| 中文字幕一区二区人妻电影| 国产在线真实子伦| 超碰黄色| 99re6在线视频| 成人午夜视频网站| 天天鲁一鲁摸一摸爽一爽| 乱肉黄蓉合集500篇| 欧美一级精品| 欧美特黄片| 亚洲一区二区自拍| 国产精品视频自拍| 日本美女内射| www狠狠干| 人妻互换一二三区免费| 国产精品久久久久久黄无码| 凹凸国产熟女精品福利11| 精品欧美一区二区三区| 国产免费一级片| 黄片免费视频| 天天操天天干天天日| 国产精品久久久久无码AV| 亚洲有码视频在线观看| 日韩 欧美 亚洲| 亚洲国产精品无码影视| av中文字幕一区| 成人精品视频在线| 久久精品亚洲精品国产欧美KT∨| 欧美 日韩 亚洲 丝袜 制服| 日韩欧美人妻| 无码精品一区二区三区潘金莲| 97精品视频| 久久艹视频| 欧美香蕉视频| 国产男女无套免费视频| 国产丝袜视频| 亚洲一区电影| 色一区导航| 精品二区在线观看| 玖玖资源在线观看| 一区二区三区性爱视频| 久久无码人妻| 国产深夜福利| 午夜福利视频网站| 国产91色在线观看| 日本在线观看一区二区| 操逼国产| 影音先锋中文字幕资源6| 亚洲色站强奸乱伦| 天天天干干| 一级黄色电影免费| 色色天堂| 久久电影网| 国产三级| 一区二区三区免费电影| 国产日韩欧美视频| 日韩熟妇无码| 91老肥熟女| 男插女青青影院| 欧美激情欧美激情在线五月| 国产69Av| 久久九九精品99国产精品| 啪啪导航| 五月婷婷av| 四季AV一区二区凹凸精品| 三级在线观看| 久久国产美女| 91麻豆精品国产| 久热精品在线| 婷婷五月天成人| 久久成人A毛片免费观看网站| 国产成人AV| 人妻视频在线| 国产精品99精品久久免费 | 久久无码精品视频| 精品无码久久久久| 秋霞乱伦| 线观看免费完整aaa| 久久精品福利视频| 国产成人久久| 老熟妇仑乱一区二区av| 国产黄色av| 婷婷精品在线| 精品国产一区二区| 操之久久| 日本黄色高清视频| 天天综合网~永久入口红桃| 天天射影院| 中国AV在线| 国产成人无码综合亚洲AV| 人人狠狠| 无码国产精品96久久久久孕妇| 国产中文字幕在线播放| 人人妻人人澡人人爽欧美一区久久| 蜜桃av一区二区三区| 最新无码视频| 午夜激情视频在线| 亚洲AV伊人久久青青草原视色 | 天天拍天天干| 五月天激情婷婷基地| 国产真人无遮挡作爱免费视频| 国产视频一区二区在线播放| 少妇又色又紧又爽又刺激视频| 韩国一区二区三区| 91精品久久久久久综合五月天| 日韩成人免费视频| 丁香五月婷婷综合| 日韩丰满熟妇| 国产免费一区二区三区在线观看| 亚洲啪啪| 日韩在线不卡| 99精品在线| 熟妇乱伦视频| 婷婷色一二三区波多野结衣| 色九月婷婷| 一级a一级a爰片免费免免免下载| 国产思思久久| 日韩精品无码一区二区| 日韩视频在线免费观看| 国产aⅴ| 日产成品片a直接观看| 视频一区 91导航| 91中文在线| 国产精品性| 麻豆三级视频| 中文字幕视频在线观看| 精品无码成人| 无码国产精品96久久久久孕妇| 国产色网站| 国产凹凸熟女一区二区三区| 无码Av久久久久久久久品牌背景| 久久精品熟女亚洲av麻豆| 国产一级精品视频| 丝袜乱伦视频| 一级黄片免费看| 午夜成人福利视频| 欧美日韩第一页| 国产性色| 国产精品久久久久久久久免费桃花| chinese偷拍一区二区三区| 久久精品99| 一级性爱毛片| 国内精品视频在线观看| 亚洲天堂av无码| 日本污网站| 久久久久久久久免费看无码| 久去色| 日本不卡二区| 日韩一区二区三区在线| 精品自拍视频| 午夜久久久| 超碰成人福利| 久久久久无码国产精品一区洗澡| 亚洲乱妇| 国产精品久久久久久久黄无码| 亚欧洲精品视频在线观看| 强奸乱伦_第1页_紫色AV| 人妻系列中文字幕| 中文字幕免费视频| 无码一区二区三区四区| 亚洲欧美另类在线| 99久久这里只有精品| 婷婷五月天激情网站| 国产黄在线| 亚洲人妻| 秋霞在线影院| 经典三级在线观看| 做受无码免费一区二区| 欧美黄色小视频| 一级黄色片免费看| 大香蕉99| 日本性爱视频在线观看| 国产精品久久久久久亚洲影视内衣| 国产精品久久久久无码AV色戒| 日本午夜精品| 蜜乳无码中文字幕一区DⅤD| 国产1级黄片| 国产在线视频无码| 久久久黄色片| 8090.aa| 一级a一级a爱片免费免会员色欲| 久久久久黄色电影| 国产高清自拍| 人人搞人人干| 人妻少妇精品视频免费看蜜桃| 日韩无码第二页| 久久久18禁一区二区三区精品| 在线免费观看日韩| 无码入口| 亚洲精品色午夜无码专区日韩| 免费无码国产在线19| 91久久久久久| 国产一级做a爰片在线看免费| 无遮挡网站| 免费A片视频| 在线观看一区| 99草视频| 亚洲毛片网| 人妻大战黑人白浆狂泄| 91精彩刺激对白露脸偷拍| 久久午夜夜伦鲁鲁片无码免费| 大地资源中文第二页在线观看| 野外做受又硬又粗又大视频√| 国产无遮挡又黄又爽又色| 人人操免费| 18禁无码毛片精品久久久久久| 黄网站在线免费看| 日韩强犴乱伦AV| 日日朝屄| 人妻免费视频| 视频一区二区在线| 色色色网站| 天天夜夜爽| 国产精品99久久久久久白浆小说| 日韩极品无码| 精品不卡| 日本三级午夜理伦三级三| free性欧美| 麻豆av网站| 欧洲免费视频| 精品久久BBBBB精品人妻| 久久久久久亚洲| 啪啪视频免费看| 91免费在线播放| 日韩成人片在线观看| 久久黄色网址| 啊v在线| 久久精品人妻一区二区| 国产黄片在线免费看| 日韩欧美三级视频| 日韩视频在线观看免费| 国产浓精日韩久久久一区| 日本久久三级片| 久久久一| 欧美高清一区| 2017日本三级| 国产精品一级毛片在码A片| 99久久亚洲精品日本无码| 国产免费AV片在线无码免费看| 欧美性爱.com| 视频一区二区在线| 久久人妻一区二区三区| 国产精品91在线| 好吊视频| 免费在线观看成人网站| 狼人综合网| 91天堂网| 国产精品久久久久久久久久东京| 懂色AV| 国产一区电影| 无码少妇精品一区二区免费动态 | 国产无码小视频| 国产Aⅴ精品| 四虎久久| 日韩高清无码一区| 国产高清一级A片免费看少妃| 中文字幕精品在线| 欧美交资源www网站| 日本少妇一级片| 男人资源网| 亚洲一区欧美一区| 精品成人无码久久久久久 | 国产伦精品一区二区三区视频新| 日韩 国产 制服 综合 无码| 日韩无码性爱视频| 国产乱伦一区二区三区| 国产无码福利导航| 中文字幕三级片| 久久网站导航| 国产精品毛片一区二区在线看| 黄网站在线免费看| 亚洲九九| 国产欧美一区二区三区鸳鸯浴| 亚洲图片中文字幕| 日韩国产一区| 人人爱人人摸人人要| 国产一区精品| 日韩小视频在线| 久久久久影视| 琪琪女色窝窝777777| AV电影在线免费观看| 久久无码人妻精品一区二区三区| 国产成人精品无码一区二区三区免费| 中文字幕在线播放| 国产一级特黄录像片| 欧美日韩国产一区| 人人操人人摸人人爽| 国产一级做a爱片毛片A片男| 国产免费AV片在线无码免费看| 肥臀熟妇真爽一区二区| 一区二区无码在线| 国产免费一区二区三区在线观看| 无码视频二区| 国产精品| 国产精品久久久久久久下载地址| 国产AV视屏| 丰满欧美大爆乳性猛交| 精品在线免费观看| 久久中文无码| 欧美一级无黄片| 国产精品一区二区尿失禁| 台湾佬中文娱乐网22| www.一起艹| 国产精品自拍一区| 91香蕉| 色妺妺视频网| 米奇影院888一区| 国产精品无码av| 久久久久国产| 天天干天天弄| 欧美电影一区二区| 久久成人麻豆午夜电影| 青娱乐91| 被男人疯狂揉吃奶胸视频| 自拍偷拍欧美亚洲| 操逼30分钟小视频| 国产学生妹在线观看| 亚洲人成色777777网站| 99久久久无码国产精品试看蜜鲁 | 日韩乱码一区二区| 我想免费观看在线电影视频| 加勒比一区| 在线一区二区三区| 国内久久精品视频| 国产真实乱了老女人视频| 91精品久久久久| 精品成人无码久久久久久 | 波多野结衣二区| 国产精品久久久久久久久久| 亚洲91乱码毛片在线播放| 日韩一区二| 一级特黄孕妇AAA| 久久影视精品| 玉蒲团之玉女心经| 国产高潮白浆无码| 亚洲熟妇一区| av在线一区二区三区| 一级a一级a爰片免费| 69久久| 九九国产| 在线欧美日韩| 色天堂在线| 国产综合精品一区二区三区| 超碰精品| 97超碰人人操| 久久久久亚洲| 狠狠人妻久久久久久综合蜜桃| 国产精品操逼| 久久久久久99| 日韩乱码一区二区| 97视频在线观看免费| 亚洲天堂AV在线播放| 啪啪一区二区| 岛国av一区二区三区| 久久国产成人精品av| 一区二区三区无码免费视频网站 | 欧美日韩在线免费观看| 色橹橹欧美在线观看视频高清| 99视频一区| 韩国三级bd高清中字在线观看| 精品伊人| 日本久久久久久| 国产伦精品一区二区 | 欧美综合图| 美女裸体无遮挡免费视频| 小雪被体育老师抱到仓库| 麻豆视频网站| 国产伦精品一区二区三区视频不卡| 日本午夜精品| 久久AV毛片| 亚洲熟女乱综合一区二区| 神马香蕉久久| 91香蕉视频在线| 日韩AV专区| 国产一级A片无码免费下载樱花| 啊v在线观看视频| 99re6这里只有精品| 91久久国产综合久久| 亚洲午夜福利| 日韩欧美人妻| 成人日本A片无码| 国产农村高清无套内谢视频| 91丨九色丨熟女高潮| 人妻色图| 亚洲无码中文字幕在线| 亚洲中文字幕视频一区二区| 小黄片免费在线观看| 欧美性爱专区| 亚洲综合图片| 天天射天天爽| 苍井空视频免费一区二区三区| 欧美乱码精品一区二区三区| 国产精品日韩欧美| A级免费视频| 一级做a爰片久久毛片潮喷动漫| 亚洲第一成人网站| 国产在线激情| 亚洲黄色三级视频| 人人摸人人干| 无码人妻精品一区二区中文| 亚洲成年乱伦强奸网| 女女女女BBBBBB毛片在线| 国产内射视频| 国产精品高清无码在线观看| av网站观看| 999久久久| 影音先锋黄色资源| 中文字幕乱码亚洲中文在线| 亚洲色婷婷综合久久久久中文| 中文字幕 亚洲视频 人妻| 久久人人操| 国产精品无码久久| 99re这里只有| 日本黄色A片| 国产浓精日韩久久久一区| 国产精彩视频| 精品久久久久久久久久| 日本国产精品无码一区久久下载| 18禁美女网站| 手机看黄色片| 一级黄片免费视频| 国产黄色免费看| 国产亚洲精品女人久久久久久| 人妻精品一区| 日韩一级二级三级| 国产天堂| 成人毛片大全| 国产永久精品| 精品国产99久久久久久宅男i| 欧美一区二区三区在线| 91九色首页| 日韩一区在线播放| 欧美第九页| 91日本| 三上悠亚一区二区| 成人精品无码| 99re6在线视频| 91精品视频网| 中文字幕一区二区久久人妻网站 | 久久精品精品无码一区三区| 小黄片在线免费观看| 欧美日韩在线视频| 亚洲综合在线视频| 调教 SM 重口 H文 HY| 精品成人| 亚洲国产乱伦18| 欧美成人一区三区无码乱码A片| 五月婷婷综合网| 丁香久久| 无码人妻久久一区二区三区免费人妻| 18成年网站| 人妻一区二区三区| 日韩久久影院| 亚洲天堂一区二区| 免费无码一区二区三区| 亚洲制服丝袜AV| 麻豆乱伦| 日本人妻一区| 女人弄爽到高潮免费视频网站| 亚洲一区自拍| 特级黄色一级片| 亚洲精品中文字幕| 国产精品高清无码| 亚洲免费黄色网址| 人妻一区二区三区四区| 日本熟女性爱视频| 91网址| 变态av| 日韩 精品 无码 系列 视频| 91 黑料 精品 国产| 国产AV国产精品无套内谢下载| 中文字幕国产| 三级片在线观看网站| 美女黄片免费看| av一区在线| 亚洲成人精品在线| 亚洲综合一区二区| 国产一区在线看| 2024狠狠爱| 人妖天堂狠狠TS人妖天堂狠狠| 宅男噜噜噜66一区二区| 欧美精品不卡| 国产精品国产三级国产专播I12| 国产99久久| 911精品国产一区二区在线| 国产福利在线观看| 国产秋霞| 久一在线| 久久久久久九九九九| 欧美亚洲天堂| 国产精品一区在线观看| 国产精品视频免费| 日韩免费操逼视频| 特一级一性一交一视一频| 无码精品A∨在线观看无| 在线不卡视频| 精品日韩| 国产精品一二| 国产精品视频免费观看| www99热| 成人三级片在线播放| 欧美熟妇精品一区二区蜜桃视频| 影音先锋男人资源站| 日韩在线视频一区| 亚洲午夜无码| 黄网在线观看| 91成版人在线观看入口| 日韩无码视频一区二区| 一级特黄女人18毛片免费视频| 久久欧美性爱| 少妇精品一二三区拳交| 丁香五月天激情网| 国产va视频| 国产一区高清| 久久黄片| 国产女人18毛片水真多1KT∧| 无码中文字幕乱码三区日本视频| 日韩亚洲一区二区| 久久久久黄片| 欧美色偷偷| 久久精品人妻| 哇嘎| 国产特级黄片| 日本一道本性爱视频| aaaa黄色激情| 日韩成人片在线观看| 色臀淫乱拳交| 少妇高潮毛片免费看欧美| 亚洲精品系列| 国产又粗又猛又爽免费视频| 天天看天天操| 日本中文字幕在线播放| 亚洲黄色电影在线观看| 青青草原亚洲| 亚洲精品国产无码| 一级毛片免费视频| 日本免费久久| 99国产精品久久久久久| 亚洲国产乱伦18| www亚洲午夜人美精片V区| 亚洲欧美在线视频| 污网站在线看| 中文字幕成人| 九九九精品视频| 天天看天天爽| 中国娇小与黑人巨大交| 青青操夜夜操| 欧美日韩在线精品| 精品久久九九| 天堂网中文在线| 尤物AV在线| 影音先锋av在线资源| 无码伊人操逼| 亚洲三级久久| 国产女人水真多18毛片18精品| 在线欧美日韩| 日本婷婷久久久久久久久一区二区 | 天天射天天爽| 青青视频二区| 亚洲操逼视频| 国产激情一区二区三区| 亚洲精品无码AV电影在线播放| 天天鲁一鲁摸一摸爽一爽| 9l视频自拍蝌蚪9l视频成人| 亚州Av无码| 日韩AV专区| 激情五月丁香花啪啪| 天天夜夜操| 亚洲a视频| 奇米网| 国产三级国产精品国产普男人| 国内精品国产成人国产三级| 在线免费黄片| 少妇的奶水| 日韩性爱一区二区三区| 成年人在线观看| 人妻99| 亚洲AV怡红院| 午夜黄色影院| 欧美精品一区二区三区A片| 国产午夜片| yellow视频在线观看| 午夜精品福利在线观看| 国产肥熟| 国产污视频在线观看| 免费不要钱的啪啪视频| poronodrome极品另类| 国产精品vⅰdeoXXXX国产| 黑人AV一区| 中文字幕3页| v与子敌伦刺激对白播放| 国产乱码精品| AAAAA毛片| 一区高清无码| 一级片免费视频| 国产精品久久久久久自浆Pr0m| 最近中文字幕在线MV视频在线| 狼人综合网| 辣妞范1000部| 一级a免一级a做免费线看内祥| 黄网站在线免费看| 熟妇人妻系列aⅴ无码专区友真希| 国产网红女主播精品视频| 伊人久久久久久久久| 精品视频国产| 久久久久久久久久久高清毛片一级| 操熟女视频| 人妇视频一区二区| 欧美第二页| 亚洲啪啪综合| 一本色道久久综合亚洲精品小说 | 探花日韩无码| 熟女网址| 91免费在线视频| 色噜噜日韩精品欧美一区二区| 无码视频免费看| 久久久黄片| 欧美日韩三级视频| 九九综合久久| 精品乱伦| 精品久久久久高清无码| 国产黄片在线看| 欧美中文在线观看| 不卡无码AV| 亚洲AV日韩AV永久无码色欲| 色婷婷av久久久久久久| 国产在线成人| 日本三级视频| 午夜性福利视频| 99色视频| www.-级毛片线天内射视视| 久久99亚洲精品久久99果冻| 美女搞黄网站| 欧美日精品| 亚洲产国偷v产偷自拍网址| 久久久久久三级片| 伊人狼人综合| 国产无码久久| 免费性爱视频| 超碰男人的天堂| 亚洲综合一区二区| 91亚洲国产| 亚洲婷婷五月| 久久小电影| 欧美视频精品| 擦逼视频国产| 精品婷婷| 天天干在线观看| 男女猛烈无遮挡| 国产一级做a爱片毛片A片男| 国产视频久久久| 一级黄色大片| 国产色图乱伦| a级无码毛片| AV手机天堂| 久久午夜无码鲁丝片午夜精品| 凸凹视频网站| av黄色在线免费观看| 一区二区三区视频在线观看| 熟妇无码乱子成人精品| 熟女乱伦视频一二三区| 日韩无码视屏| 成人国产精品| 黄页网站视频| 日韩人妻在线视频| 色视频在线观看| 欧美日精品| 嫩草视频在线| 日韩视频第一页| 91久久久久久久久| 精品一区二区三区免费观看| 女同毛片| freexxx性欧美| 成午夜精品一区二区三区软件| 欧美天天| 亚洲无码精品在线观看| 中文字幕一区在线播放| 人妻性爱网站| 人妻一区二区三区四区| 92久久精品一区二区| 91在线看| 91精品久久久久久久久久| 91色在线观看| 天天爽夜夜爽| 国产伦理一区| 无码视频在线播放| 国产真实伦露脸| 日韩性爱视频免费在线播放| 亚洲黄色在线观看视频| 国产影视久久久| 久久91视频| 精品成人无码久久久久久 | 蜜乳在线| 午夜黄色一级片| 日本三级免费| 午夜一区二区三区| 中文字幕在线第一页| 国产精品久久久精品| 99久久久国产精品无码 | 成人免费在线观看网站| 国产91丝袜在线播放九色| 99久久亚洲精品视香蕉蕉v| 伊人欧美| 国产大片免费看| 国产日批视频在线观看| 国产一级特黄视频| 影音先锋成人AV| 日韩精品无码一区二区三区久久久| 色婷婷丁香五月| 天天燥日日燥| 精品一区二区不卡| 奇米狠狠| 久久久综合色| 国产精品超碰| 免费无码国产在线54| 中国国产黄片| 拳交网| 国产激情91| 亚洲无码aaa| 亚洲三级无码| 91色欲| 久久人人爽爽人人爽人人片av| 夜夜久久| 久久激情综合| 欧美操逼视频免费看| 欧美一区二区三区免费A片老妇人| 乱熟女高潮一区二区在线| 一区二区亚洲| 草莓视频在线| 码人妻免费视频| A级性爱视频| 国产成人亚洲综合a∨婷婷 | 亚州Av无码| 精品无码久久久久久久久成人| 国产又爽又黄无码无遮挡在线观看| 岛国一区二区| 中文字幕人妻丝袜乱一区三区| 无码精品久久| 欧美不卡a片免费看| 国产一级a毛一级a看免费软件| 毛片视频网| 天天操天天日天天射| 欧美综合一区| 欧美日韩一区二区三| 成人性爱视频免费在线观看| 乱伦天堂| 日韩无码免费看| 一级淫片120分钟试看| 免费无遮挡男女交性视频| 欧美另类视频| 黄色激情网站| 久久嫩草精品久久久精品的优点| 午夜精品久久久久久久白皮肤| 天天色影院| 国产精品麻豆| 国产一区二区三区免费观看网站上| 91日日夜夜| 熟妇人妻系列aⅴ无码专区友真希 影音先锋成人资源AV在线观看 | 天堂无码在线观看| 人人摸人人看| 国产精品久久久久久久| 国产一区二区无码| 岛国片完整版的视频| 国产精品一区二区三区无码| 亚洲无码视频在线| 精娱乐A片| 精品国产乱码久久久久久水果| 久久99精品国产| 欧美性爱一级免费| 露脸丨91丨九色露脸| 日韩免费视频一区二区| 99re在线精品| 国产精品嫩草影院CCm| 国产精品亚洲天堂| 三上悠亚中文字幕| 日本日逼视频| 丁香五月婷婷基地| 中文字幕精品在线| 懂色av一区二区三区| 人人摸人人操| 中文字幕第四页| 校花被网站免费看视频| 亚洲精品国产suv一区| 中国少妇XXXX| 极品尤物一区二区三区| 国精产品一区一区三区四区| 日韩AV午夜| 中文字幕一区二区三区四区| 日本操逼视频免费观看| 国产一级a毛免费大片| 欧美性猛交99久久久久99按摩| 日韩欧美中文字幕在线观看| 国产精品视频网| 特黄AAAAAAAAA毛片免费视频| 成人毛片免费| 国产看黄网站又黄又爽又色| 性欧美精品| 精品无码黑人又粗又大又长| 国产成人无码不卡精品久久久| 一级黄片无码| 国产精品| 码精品一区二区三区四区| 欧美日韩一区二区三区四区| 国产69精品久久久久777| 欧美色偷偷| 午夜大香蕉| 乱伦我不卡| 精品视频久久| 人人爱人人操| 高潮喷水波多野结衣在线观看| 韩国精品视频在线观看| 欧美精品国产| 91在线视频免费的| 强奸乱伦亚洲综合| 少妇喷水| 日本不卡在线视频| 三个寡妇干柴烈火| 啪啪免费视频| 五月天伊人| 久久久精品影院| 粗又黑又硬好爽高潮视频| 一级欧美视频| 亚洲人妻中文字幕| 国产婷婷| 日韩无码视频专区| 三级色图| 精品爆乳一区二区三区无码AV| 国产成a人亚洲精品无码久久| 国产免费AV片在线无码免费看| 国产欧美在线播放| 久久Av一区二区| 欧美精品区| 国产欧美日韩在线| 九九久久国产精品| 国产精品国产三级国产三级人妇| 免费无码黄色| 国产偷人妻精品一区二区在线| 婷婷一区二区| 91高潮胡言乱语对白刺激国产 | 国产黄色在线| 人人色人人摸人人搞| 日韩人妻一区| 亚洲AV片无码久久五月| 国产黄片观看| 国产精品久久久久久一级毛片探花| 日韩精品第一页| 九九久久亚洲| 性爱欧美第二区| 国产一区在线观看视频| 99久久精品免费视频| 热久久久久久久| 我要看黄色九九片| 国产三级午夜理伦三级| 小黄片免费在线观看| 欧美性爱视频在线播放| 一级a视频| 禁果AV一区二区夜夜嗨| 免费无码淫片aaa| 天天爽天天爽| 窝窝午夜看片| 欧美国产精品一区二区三区| 国产电影一区| 国产SUV精品一区二区883| 色资源网| 女同一区二区| 国产三级片在线视频| 无码少妇一二三区免费| av成人导航| 亚洲国产精品自拍| 日韩人妻一区二区三区| 国产黄色一级| 欧美午夜精品一区二区三区电影| 黄瓜视频污版| 国产精品无码午夜福利免费看| 88AV国产| 亚洲毛片在线| 影音先锋中文字幕资源6| 亚洲精品无码久久久| 久久国产精品视频| 亚洲精品一区二区三区在线观看 | 天天干伊人久久| 美女乱伦一区二区三区| 97国产精品久久久|