[{"name":"实验技术与元件","count":840,"id":1},{"name":"测量与计量","count":650,"id":2},{"name":"光纤光学与光通信","count":624,"id":3},{"name":"激光制造","count":542,"id":4},{"name":"激光器件与激光物理","count":537,"id":5},{"name":"Laser Devices and Laser Physics","count":523,"id":6},{"name":"EXPERIMENTAL TECHNIQUES AND ELEMENTS","count":496,"id":7},{"name":"激光应用","count":486,"id":8},{"name":"Laser Manufacturing","count":474,"id":9},{"name":"Measurement and Metrology","count":420,"id":10},{"name":"LASERS AND LASER OPTICS","count":393,"id":11},{"name":"激光器与激光光学","count":393,"id":12},{"name":"Fiber Optics and Optical Communications","count":374,"id":13},{"name":"测量技术","count":372,"id":14},{"name":"激光器件","count":372,"id":15},{"name":"简讯","count":357,"id":16},{"name":"激光物理与激光化学","count":330,"id":17},{"name":"遥感与传感器","count":321,"id":18},{"name":"激光加工与应用","count":306,"id":19},{"name":"LASER PROCESSING AND APPLICATIONS","count":292,"id":20},{"name":"LASER APPLICATIONS","count":272,"id":21},{"name":"综述","count":272,"id":22},{"name":"FIBER OPTICS AND OPTICAL COMMUNICATIONS","count":262,"id":23},{"name":"MEASUREMENT AND METROLOGY","count":247,"id":24},{"name":"光通信及其元器件","count":242,"id":25},{"name":"材料","count":240,"id":26},{"name":"光纤元件","count":235,"id":27},{"name":"光谱学","count":235,"id":28},{"name":"MEASUREMENT TECHNIQUES","count":230,"id":29},{"name":"全息技术与信息处理","count":209,"id":30},{"name":"薄膜","count":203,"id":31},{"name":"激光物理","count":184,"id":32},{"name":"Reviews","count":183,"id":33},{"name":"MATERIALS","count":159,"id":34},{"name":"Spectroscopy","count":157,"id":35},{"name":"FIBER ELEMENTS","count":151,"id":36},{"name":"Research Articles","count":146,"id":37},{"name":"研究论文","count":146,"id":38},{"name":"全息与信息处理","count":138,"id":39},{"name":"光束传输与控制","count":137,"id":40},{"name":"光束传输","count":133,"id":41},{"name":"激光医学与生物学","count":133,"id":42},{"name":"Remote Sensing and Sensors","count":132,"id":43},{"name":"THIN FILMS","count":132,"id":44},{"name":"OPTICS COMMUNICATION AND ITS ELEMENTS","count":126,"id":45},{"name":"Beam Transmission and Control","count":124,"id":46},{"name":"HOLOGRAPHY AND INFORMATION PROCESSING","count":124,"id":47},{"name":"Laser Physics","count":123,"id":48},{"name":"LASER PHYSICS AND LASER CHEMISTRY","count":120,"id":49},{"name":"Biomedical Optical Imaging","count":118,"id":50},{"name":"生物医学光学成像","count":118,"id":51},{"name":"LASER MEDICINE AND BIOLOGY","count":110,"id":52},{"name":"Remote Sensing and Sensor","count":110,"id":53},{"name":"生物医学光子学与激光医学","count":100,"id":54},{"name":"材料与薄膜","count":99,"id":55},{"name":"Biomedical Photonics and Laser Medicine","count":94,"id":56},{"name":"激光成形制造","count":88,"id":57},{"name":"BEAM TRANSMISSION","count":87,"id":58},{"name":"Laser Additive Manufacturing","count":84,"id":59},{"name":"激光增材制造","count":84,"id":60},{"name":"Laser Surface Machining","count":83,"id":61},{"name":"激光表面加工","count":83,"id":62},{"name":"非线性光学","count":83,"id":63},{"name":"Laser Forming Manufacturing","count":82,"id":64},{"name":"Optical Diagnostics and Therapy","count":82,"id":65},{"name":"光学诊断与治疗","count":82,"id":66},{"name":"SPECTROSCOPY","count":80,"id":67},{"name":"Materials and Thin Films","count":78,"id":68},{"name":"太赫兹技术","count":78,"id":69},{"name":"Holography and Information Processing","count":73,"id":70},{"name":"激光微纳制造","count":73,"id":71},{"name":"微纳光学","count":69,"id":72},{"name":"Terahertz Technology","count":66,"id":73},{"name":"光学设计与制造","count":66,"id":74},{"name":"REMOTE SENSING AND SENSORS","count":64,"id":75},{"name":"Laser Micro-Nano Manufacturing","count":63,"id":76},{"name":"REVIEW","count":62,"id":77},{"name":"LASER PHYSICS","count":61,"id":78},{"name":"OPTICAL DESIGN AND FABRICATION","count":61,"id":79},{"name":"LASER MAMUFACTURING","count":60,"id":80},{"name":"Micro and Nano Optics","count":57,"id":81},{"name":"量子光学","count":56,"id":82},{"name":"LASER DEVICES","count":54,"id":83},{"name":"快报","count":53,"id":84},{"name":"激光应用(通信、工业、医学和生物等)","count":52,"id":85},{"name":"光束传输与控制,材料、薄膜及元器件","count":51,"id":86},{"name":"光通信","count":50,"id":87},{"name":"Letters","count":48,"id":88},{"name":"Nonlinear Optics","count":46,"id":89},{"name":"ATMOSPHERIC AND OCEANIC OPTICS","count":45,"id":90},{"name":"大气与海洋光学","count":45,"id":91},{"name":"Laser Material Processing","count":44,"id":92},{"name":"激光材料加工","count":44,"id":93},{"name":"“六十载激光与生物医学的融合发展”专题","count":43,"id":94},{"name":"激光物理与激光器件","count":43,"id":95},{"name":"Quantum Optics","count":42,"id":96},{"name":"Special Issue on Sixty-Year Crossing and Integration for Laser and Biomedicine","count":42,"id":97},{"name":"“太赫兹科学与技术”专题","count":39,"id":98},{"name":"Special Issue on Terahertz Science and Technology","count":38,"id":99},{"name":"\"生物医学光子学新技术及进展\"专题","count":29,"id":100},{"name":"Feature Issue on New Technologies and Advances in Biomedical Photonics","count":28,"id":101},{"name":"Feature Issue on Ultrafast Nonlinear Optics","count":28,"id":102},{"name":"Materials","count":28,"id":103},{"name":"“超快激光非线性光学”专题","count":28,"id":104},{"name":"激光材料","count":27,"id":105},{"name":"FIBER OPTIC SENSORS AND NETWORK TECHNOLOGY","count":26,"id":106},{"name":"新型光纤传感器件及网络技术","count":26,"id":107},{"name":"超短脉冲激光及非线性光学","count":26,"id":108},{"name":"Bio-Optical Sensing and Manipulation","count":24,"id":109},{"name":"Special Issue on Semiconductor Lasers","count":24,"id":110},{"name":"Thin Films","count":24,"id":111},{"name":"“半导体激光器”专题","count":24,"id":112},{"name":"生物光学传感与操纵","count":24,"id":113},{"name":"OPTICAL COMMUNICATIONS","count":23,"id":114},{"name":"“二维光电材料与器件”专题","count":23,"id":115},{"name":"\"高功率光纤激光技术\"专题","count":22,"id":116},{"name":"Neurophotonics and Optical Control","count":21,"id":117},{"name":"神经光子学及光学调控","count":21,"id":118},{"name":"Review","count":20,"id":119},{"name":"“南开大学现代光学研究所建所40周年”纪念专辑","count":20,"id":120},{"name":"激光医学","count":20,"id":121},{"name":"EXPERIMENTAL TECHNIOUES AND ELEMENTS","count":19,"id":122},{"name":"Special Issue for the 40th Anniversary of Institute of Modern Optics Nankai University","count":19,"id":123},{"name":"光学薄膜","count":19,"id":124},{"name":"\"多维光信息加密及存储技术\"专题","count":18,"id":125},{"name":"020 LASERS AND LASER OPTICS","count":18,"id":126},{"name":"CONTINUOUS ALL-SOLID-STATE LASERS","count":18,"id":127},{"name":"Feature Issue on New Technologies and Advances in Biomedical Photonics(Ⅱ)","count":18,"id":128},{"name":"Special Issue for the 60th Anniversary of Laser's Invention","count":18,"id":129},{"name":"“生物医学光子学新技术及进展”专题(Ⅱ)","count":18,"id":130},{"name":"“纪念激光器诞生60周年”专题","count":18,"id":131},{"name":"连续全固态激光器","count":18,"id":132},{"name":"\"超快激光加工与微纳制造\"专题","count":17,"id":133},{"name":"Special Issue on \"Multi-dimensional Optical Information Encryption and Storage Technology\"","count":17,"id":134},{"name":"“人工智能赋能激光”专题","count":17,"id":135},{"name":"\"半导体光电子材料与器件\"专题","count":16,"id":136},{"name":"030 LASER PROCESSING AND APPLICATIONS","count":16,"id":137},{"name":"Feature Issue on Advances in Laser Absorption Spectroscopy and Its Application","count":16,"id":138},{"name":"LASER WELDING","count":16,"id":139},{"name":"MEDICAL AND BIOLOGICAL IMAGING","count":16,"id":140},{"name":"OPTOELECTRONICS","count":16,"id":141},{"name":"Special Issue on \"Laser Improved and Upgraded by Artificial Intelligence\"","count":16,"id":142},{"name":"Special Issue on \"Semiconductor Optoelectronic Materials and Devices\"","count":16,"id":143},{"name":"“激光吸收光谱技术及应用新进展”专题","count":16,"id":144},{"name":"光电子学","count":16,"id":145},{"name":"医学与生物成像","count":16,"id":146},{"name":"激光焊接","count":16,"id":147},{"name":"Lacer Devices and Laser Physics","count":15,"id":148},{"name":"REMOTE SENSING AND SENSOR","count":15,"id":149},{"name":"自适应光学","count":15,"id":150},{"name":"PULSED ALL-SOLID-STATE LASERS","count":14,"id":151},{"name":"TERAHERTZ TECHNOLOGY","count":14,"id":152},{"name":"脉冲全固态激光器","count":14,"id":153},{"name":"BEAM TRANSMISSION AND CONTROL","count":13,"id":154},{"name":"LASER STRENGTHENING AND MATERIAL FABRICATION","count":13,"id":155},{"name":"光纤学与光通信","count":13,"id":156},{"name":"激光强化与材料制备","count":13,"id":157},{"name":"080 MEASUREMENT AND METROLOGY","count":12,"id":158},{"name":"ADOPTIVE OPTICS","count":12,"id":159},{"name":"Self-Developed Controllable Optical Core Materials and High-End Laser Equipment","count":12,"id":160},{"name":"Special Issue:Research on Ultrafast Laser Filamentation Based Lidar Technique for Multi-Trace Air Pollution Detection","count":12,"id":161},{"name":"自主可控光学核心材料和激光高端装备","count":12,"id":162},{"name":"项目专题:基于光丝激光雷达的大气污染多组分监测技术研究","count":12,"id":163},{"name":"Aerospace Laser Information Network Technologies and Systems","count":11,"id":164},{"name":"EXPERIMRENTAL TECHNIQUES AND ELEMENTS","count":11,"id":165},{"name":"FIBER LASERS","count":11,"id":166},{"name":"LASER CLADDING","count":11,"id":167},{"name":"LASER SURFACE ENGINEERING AND RAPID MANUFACTURING","count":11,"id":168},{"name":"MATERIALS AND THIN FILMS","count":11,"id":169},{"name":"QUANTUM OPTICS","count":11,"id":170},{"name":"TISSUE OPTICS","count":11,"id":171},{"name":"光纤激光器","count":11,"id":172},{"name":"测量与计算","count":11,"id":173},{"name":"激光熔覆","count":11,"id":174},{"name":"激光表面工程与快速制造","count":11,"id":175},{"name":"空天激光信息网络技术与系统","count":11,"id":176},{"name":"Laser Fusion and Ultra Intense Laser Science","count":10,"id":177},{"name":"超强激光科学与聚变新体系","count":10,"id":178},{"name":"020 激光器与激光光学","count":9,"id":179},{"name":"020激光器与激光光学","count":9,"id":180},{"name":"030 激光加工与应用","count":9,"id":181},{"name":"FIER OPTICS AND OPTICAL COMMUNIGCATION","count":9,"id":182},{"name":"Process Monitoring and Control","count":9,"id":183},{"name":"Task 1 General Fundamental Problems of Trans-Scale and Multi-Materials Nanojoining Based on Laser Fabrication","count":9,"id":184},{"name":"工艺监测与调控","count":9,"id":185},{"name":"课题一 基于激光制造的跨尺度和多材料纳连接的共性基础问题","count":9,"id":186},{"name":"080测量与计量","count":8,"id":187},{"name":"Imaging Systems","count":8,"id":188},{"name":"LASER DIRECT MANUFACTURING","count":8,"id":189},{"name":"Laser Mamufacturing","count":8,"id":190},{"name":"Laser Processing AND APPLICATIONS","count":8,"id":191},{"name":"Task 2 Laser Fabricating Technology and Equipment of Nanomaterials and Nanostructures and Their Applications in Low Temperature Joining","count":8,"id":192},{"name":"Task 3 Processing Technology , Equipment and Applications of Three-Dimensional Trans-Scale Nano Manipulation and Controllable Laser Nanojoining","count":8,"id":193},{"name":"Task 4 Ultrafast Laser Manufacturing of Micronano Functional Structures and Novel Energy Devices","count":8,"id":194},{"name":"成像系统","count":8,"id":195},{"name":"激光仪器","count":8,"id":196},{"name":"激光快速成形制造","count":8,"id":197},{"name":"课题三 三维跨尺度纳米操作和激光可控纳米连接的工艺技术与装备及应用","count":8,"id":198},{"name":"课题二 激光制备纳米材料/结构及其用于低温连接的技术与装备及应用","count":8,"id":199},{"name":"课题四 微纳功能结构与新能源器件的超快激光制造","count":8,"id":200}]
