[{"data":1,"prerenderedAt":193},["ShallowReactive",2],{"2aeea6959d3d2792b3a41077f7b71508":3,"ProductItem10080":7,"TopCategory":65,"ProductSelectProduct10080":167},{"code":4,"msg":5,"data":6},200,"success",{},{"code":4,"msg":5,"data":8},{"id":9,"parentId":10,"parentName":11,"name":11,"type":12,"sortNum":13,"createTime":14,"description":15,"homeUrl":16,"homeUrlAlt":16,"smallImage":17,"smallImageAlt":16,"modelNumber":18,"meta":19,"configJson":20,"picList":21,"keywordsList":22,"newsList":28,"introduction":57,"configListList":58,"parentResp":59},10080,105,"Venuslab ExView U3 Camera",1,2,"2025-08-29 13:44:53","12-megapixel Sony ICX834ALG (M), with the same 1\" sensor format and 3.1μm pixel pitch.","https://source.venuslabtech.com/mall-prod/f2b29e87-f0c8-4548-ac99-5c119e0f6320.png","https://source.venuslabtech.com/mall-prod/8724f2c5-9440-43b4-b87a-742d51aff3a8.png","NM112000A","[{\"name\":\"title\",\"label\":\"Title 标题\",\"content\":\"Venuslab ExView U3 Camera | VenusLab\"},{\"name\":\"keywords\",\"label\":\"Keywords 关键词\",\"content\":\"NM112000A motion stage,VenusLab NM112000A,nano-precision 112000A,112000A-series stage,high-res nano motion stage,semiconductor inspection stage,micro-imaging positioning 112000A,microfabrication alignment stage,lab nano motion NM112000A,low-vibration nano stage​.\"},{\"name\":\"description\",\"label\":\"Description 描述\",\"content\":\"VenusLab NM112000A: High-precision nano motion stage—nanoscale positioning accuracy, smooth motion & low vibration, ideal for semiconductor inspection, micro-imaging positioning, microfabrication. Explore now!\"},{\"name\":\"og:title\",\"label\":\"og:title\",\"content\":\"VenusLab NM112000A – 112000A-Series Nano Precision Stage\"},{\"name\":\"og:type\",\"label\":\"og:type\",\"content\":\"website\"},{\"name\":\"og:description\",\"label\":\"og描述\",\"content\":\"NM112000A nano motion stage with ultra-high resolution & stable performance—trusted in lab micro-optics, wafer metrology, high-precision alignment.\"},{\"name\":\"og:image\",\"label\":\"og图片\",\"content\":\"https://source.venuslabtech.com/mall-prod/f2b29e87-f0c8-4548-ac99-5c119e0f6320.png\"},{\"name\":\"og:url\",\"label\":\"og url\",\"content\":\"https://www.venuslabtech.com/products/nm112000a\"},{\"name\":\"twitter:title\",\"label\":\"twitter:title\",\"content\":\"VenusLab NM112000A – 112000A-Series Nano Precision Stage\"},{\"name\":\"twitter:description\",\"label\":\"twitter描述\",\"content\":\"NM112000A nano motion stage with ultra-high resolution & stable performance—trusted in lab micro-optics, wafer metrology, high-precision alignment.\"},{\"name\":\"twitter:image\",\"label\":\"twitter图片\",\"content\":\"https://source.venuslabtech.com/mall-prod/f2b29e87-f0c8-4548-ac99-5c119e0f6320.png\"},{\"name\":\"twitter:card\",\"label\":\"twitter:card\",\"content\":\"summary_large_image\"},{\"name\":\"twitter:site\",\"label\":\"twitter:site\",\"content\":\"VenusLabtech\"}]","[{\"key1\":\"Sensor Model and Size\",\"key2\":\"Pixel Pitch (μm)\",\"value1\":\"12M/ICX834ALG(M) 1“ (13.15x8.77)\",\"value2\":\"3.1x3.1\"},{\"key1\":\"Green Light Sensitivity & Dark Current\",\"key2\":\"FPS/Resolution\",\"value1\":\"420mv with 1/30s 12mv with 1/30s (F8.0)\",\"value2\":\"3.6@4248x2836 3.6@2124x1418\"},{\"key1\":\"Sampling Averaging\",\"key2\":\"Exposure Time\",\"value1\":\"1x1 2x2\",\"value2\":\"0.06ms~1000s\"}]",[],[23,25],{"id":13,"keywords":24},"CMOS相机",{"id":26,"keywords":27},4,"半导体激光器",[29,39,49],{"id":30,"title":31,"time":32,"context":33,"mainImage":34,"status":12,"sortNum":35,"createTime":36,"updateTime":37,"description":38},13,"Innovation and Future Prospects of Optoelectronic Technology","2025-02-01 00:00:00","\u003Cp>1、 The Application and Development of Optoelectronic Technology in the Field of Communication\u003C/p>\u003Cp>With the rapid development of information technology, the demand for data transmission speed and bandwidth in the communication field is increasing day by day. Optoelectronic technology, as a high-speed and high-capacity information transmission method, is receiving increasing attention. Firstly, it plays a central role in fiber optic communication. By utilizing laser transmission in optical fibers, high-speed, long-distance, and low loss data transmission can be achieved. Secondly, optoelectronic technology also has a wide range of applications in wireless communication. For example, optical beam technology can achieve high-precision positioning and high-speed data transmission in wireless communication. Finally, the rapid development of optoelectronic technology has also propelled the advancement of quantum communication. Quantum communication technologies such as quantum key distribution have extremely high security and transmission speed, and are important development directions in the future communication field.\u003C/p>\u003Cp>2、 The Application and Challenges of Optoelectronic Technology in the Field of Intelligent Manufacturing\u003C/p>\u003Cp>Intelligent manufacturing is the future development direction of the manufacturing industry, and optoelectronic technology plays an important role in intelligent manufacturing. Firstly, optoelectronic technology can achieve high-precision optical detection and measurement, providing precise data support for intelligent manufacturing. Secondly, the application of optoelectronic technology in industrial robots is becoming increasingly widespread. For example, using machine vision technology, robots can achieve precise recognition and positioning. However, the application of optoelectronic technology in the field of intelligent manufacturing also faces some challenges. For example, harsh working environments may cause damage to optoelectronic devices, so it is necessary to develop optoelectronic devices that are more adaptable to harsh environments.\u003C/p>\u003Cp>3、 The Application and Prospect of Optoelectronic Technology in the Field of New Energy\u003C/p>\u003Cp>The field of new energy is one of the important application areas of optoelectronic technology. Firstly, solar photovoltaic power generation is an important new energy utilization method. By converting solar energy into electrical energy through photoelectric conversion, it has the characteristics of cleanliness and sustainability. Secondly, optoelectronic technology has a wide range of applications in new energy fields such as wind and geothermal energy. In addition, optoelectronic technology can also be applied in smart grids to achieve efficient transmission and distribution of electricity. With the continuous development of new energy technology, the application prospects of optoelectronic technology will be even broader.\u003C/p>\u003Cp>4、 Application and Innovation of Optoelectronic Technology in the Medical Field\u003C/p>\u003Cp>The medical field is one of the important application areas of optoelectronic technology. Firstly, optoelectronic technology plays an important role in medical diagnosis. For example, optical imaging technology can help doctors diagnose diseases more accurately. Secondly, optoelectronic technology can also be applied in surgical treatment. For example, laser surgery has the characteristics of precision and minimally invasive, and has been widely used in fields such as ophthalmology and dermatology. In addition, optoelectronic technology can also be applied in biophotonics research, providing new methods and means for medical research. With the continuous innovation of medical technology, the application of optoelectronic technology will become more widespread.\u003C/p>\u003Cp>Summary:\u003C/p>\u003Cp>As one of the important fields of modern technology, optoelectronic technology has been widely applied in communication, intelligent manufacturing, new energy, and medical fields. With the continuous development of technology, optoelectronic technology will bring more innovation and breakthroughs. In the future, we need to further increase the research and application of optoelectronic technology, promote the rapid development of optoelectronic technology, and make greater contributions to human technological progress and social development.\u003C/p>","https://source.venuslabtech.com/mall-prod/a04f2104-56fa-44c3-b3b8-fbde0a777421.jpg","0","2025-02-21 11:13:01","2025-10-05 18:03:38","Optoelectronic technology will bring more innovation and breakthroughs",{"id":40,"title":41,"time":42,"context":43,"mainImage":44,"status":45,"sortNum":35,"createTime":46,"updateTime":47,"description":48},14,"Innovation and Challenges in Optoelectronic Technology","2025-02-03 00:00:00","\u003Cp>Optoelectronic technology, as a shining pearl of modern technology, is leading the progress of the times. From photoelectric sensors to lasers, and then to photoelectric display technology, every innovation injects new impetus into the progress of related industries.\u003C/p>\u003Cp>Breakthrough and Application of Optoelectronic Sensors\u003C/p>\u003Cp>With the rapid development of technology, the application of photoelectric sensors in various fields is becoming increasingly widespread. They can accurately detect parameters such as light intensity and color, providing important support for fields such as industrial automation, medical diagnosis, and environmental monitoring. At the same time, the emergence of new photoelectric sensors has significantly improved the sensitivity, response speed, and other indicators of sensing devices.\u003C/p>\u003Cp>Innovation and Breakthrough in Laser Technology\u003C/p>\u003Cp>Laser technology is an important branch of optoelectronic technology, and its applications in fields such as communication, healthcare, and manufacturing are becoming increasingly widespread. With the continuous innovation of laser technology, the performance of lasers has been significantly improved, and the application fields of lasers have also been continuously expanded. For example, LiDAR can accurately navigate and locate in harsh weather and complex environments, providing strong support for new technologies such as autonomous vehicles.\u003C/p>\u003Cp>The Application and Challenges of Optoelectronic Technology in the Field of Communication\u003C/p>\u003Cp>With the rapid development of information technology, the application of optoelectronic technology in the field of communication is becoming increasingly widespread. Fiber optic communication has become one of the main methods of modern communication due to its advantages such as fast transmission speed and large bandwidth. However, with the continuous growth of communication demand, fiber optic communication is facing challenges in terms of transmission distance, transmission quality, and other aspects. Therefore, how to further improve the performance and reliability of fiber optic communication has become one of the current research hotspots. In addition, as an emerging communication technology, quantum communication's core technology also relies on the support of optoelectronic technology. Quantum communication has efficient and secure information transmission capabilities, and is expected to play an important role in the future field of information security. However, the research and application of quantum communication are still in their early stages and require more research and exploration.\u003C/p>\u003Cp>The Application and Impact of Optoelectronic Technology in the Medical Field 🏥\u003C/p>\u003Cp>With the continuous advancement of medical technology, the application of optoelectronic technology in the medical field is becoming increasingly widespread, providing more accurate and efficient means and methods for the diagnosis and treatment of diseases. For example, optical imaging technology can help doctors observe and analyze the condition more clearly, providing more accurate basis for developing treatment plans. In addition, optoelectronic technology can also be applied to surgical assistance and rehabilitation treatment, improving surgical outcomes and rehabilitation speed, thereby bringing better health and well-being to patients.\u003C/p>\u003Cp>However, the application of optoelectronic technology in the medical field still faces some challenges, such as biosafety and equipment costs, which require joint efforts from researchers and medical workers to solve.\u003C/p>\u003Cp>Every innovation in optoelectronic technology is bringing more possibilities to our lives. Whether in communication, healthcare, or other fields, the advancement of optoelectronic technology is painting a better picture for our future.\u003C/p>","https://photovotebucket.s3.ap-southeast-1.amazonaws.com/mall/06d88803-d243-4d9e-8ee3-947864b14c52.png",0,"2025-02-21 11:20:07","2025-10-29 18:14:26","The Dawn of the New Era",{"id":50,"title":51,"time":32,"context":52,"mainImage":53,"status":45,"sortNum":35,"createTime":54,"updateTime":55,"description":56},16,"The application prospects of optoelectronic information technology in electronic devices","\u003Cp>With the continuous development of technology, the application of optoelectronic information technology in electronic devices is becoming increasingly widespread. Optoelectronic information technology is a technology that combines light and electricity by utilizing the mutual conversion of optical and electrical signals. Its application prospects in electronic devices are very broad, bringing us a lot of convenience and innovation. This article will discuss the application prospects of optoelectronic information technology in electronic devices and explore its impact.\u003C/p>\u003Cp>1、 Application of Optoelectronic Information Technology on Display Screen\u003C/p>\u003Cp>The application of optoelectronic information technology is most intuitively reflected in the display screen. With the increasing demand for display effects, traditional LCD screens can no longer meet people's needs. Therefore, optoelectronic information technology has brought us new display technologies, such as organic light-emitting diode (OLED) technology and flexible display technology. These new technologies not only achieve higher color reproduction and contrast, but also enable bending and folding, greatly enhancing the user experience.\u003C/p>\u003Cp>2、 The Application of Optoelectronic Information Technology in the Field of Communication\u003C/p>\u003Cp>Optoelectronic information technology plays an important role in the field of communication. Fiber optic communication technology is an important breakthrough in the field of modern communication, which utilizes optical signals for high-speed transmission, greatly improving the speed and bandwidth of communication. And optoelectronic information technology is to achieve the mutual conversion of optical signals and electrical signals, providing strong support for the development of fiber optic communication technology. For example, optoelectronic conversion devices can convert optical signals transmitted through optical fibers into electrical signals for processing and transmission. The application of this technology makes communication more efficient, stable, and reliable.\u003C/p>\u003Cp>3、 The Application of Optoelectronic Information Technology in Smart Home\u003C/p>\u003Cp>Smart home is a rapidly developing field in recent years, which connects various electronic devices and home facilities together to achieve intelligent control and management. The application of optoelectronic information technology has brought more possibilities for smart homes. For example, the use of optoelectronic information technology can develop intelligent lighting systems that monitor and adjust indoor light in real time through photosensitive devices, achieving automatic lighting and energy conservation and emission reduction. At the same time, optoelectronic information technology can also achieve the control of intelligent curtains, automatically adjusting the opening and closing degree of curtains according to the strength of light, providing a more comfortable living environment.\u003C/p>\u003Cp>4、 The Application of Optoelectronic Information Technology in the Medical Field\u003C/p>\u003Cp>Optoelectronic information technology has also been widely applied in the medical field. For example, micro optical sensors can be manufactured using nano optoelectronic technology and implanted into the human body for real-time monitoring and diagnosis. This type of sensor can obtain physiological data of the human body through optical signals and convert them into electrical signals for analysis and processing. The application of this technology can provide doctors with more accurate and timely monitoring and diagnostic results, improving medical level and efficiency.\u003C/p>\u003Cp>In summary, the application prospects of optoelectronic information technology in electronic devices are very broad. It not only plays an important role in fields such as display screens, communication, and smart homes, but also brings innovation to the medical field. With the continuous advancement and improvement of technology, it is believed that optoelectronic information technology will demonstrate its enormous potential in more fields and bring more convenience and innovation to people's lives. The era of embracing optoelectronic information technology has arrived, and we have reason to be optimistic about its future development.\u003C/p>","https://photovotebucket.s3.ap-southeast-1.amazonaws.com/mall/dd59b13c-b914-4f5e-bd7a-f804a469f56f.png","2025-02-21 11:31:03","2025-10-29 18:14:37","The era of embracing optoelectronic information technology has arrived","\u003Cp>\u003Cspan style=\"color: rgb(0, 0, 0); font-size: 19px; font-family: Arial;\">Dark current covers 580nm (1/30s, 12mV) + 660nm (F8.0), suitable for green fluorescence (such as GFP, around 580nm) and red light labeling.\u003C/span>\u003C/p>\u003Cp>\u003Cspan style=\"color: rgb(0, 0, 0); font-size: 19px; font-family: Arial;\">4.4FPS@3388×2712 (full resolution), 4.4FPS@1694×1356 (×2 downsampling), exposure 0.06ms~1000s.\u003C/span>\u003C/p>",[],[60,62],{"id":26,"parentId":45,"name":61},"Imaging",{"id":63,"parentId":26,"name":64},26,"CCD Cameras",{"code":4,"msg":5,"data":66},[67,77,91,114,128,142,152],{"id":13,"parentId":45,"name":68,"sortNum":12,"smallImage":69,"smallImageAlt":69,"introduction":70,"children":71,"elect":45,"childrenFlag":12},"Light Sources","https://source.venuslabtech.com/mall-prod/0513a35b-c34f-4a0b-9a7d-d2e627c17713.png","\u003Cp>\u003Cspan style=\"font-size: 19px; font-family: Arial;\">At VenusLab, our Light Sources portfolio is designed to meet the diverse needs of modern research and industry. From multi-channel LED modules to high-stability laser engines, each solution delivers precision, stability, and adaptability for your specific applications. Whether for advanced imaging, optogenetics, or fiber-coupled systems, VenusLab light sources ensure consistent performance to drive your innovation forward.\u003C/span>\u003C/p>",[72],{"id":73,"parentId":13,"name":74,"sortNum":13,"smallImage":75,"smallImageAlt":75,"introduction":76,"elect":45,"childrenFlag":12},10,"Laser","https://source.venuslabtech.com/mall-prod/e90dbc77-1a1b-4c2f-b6ab-2b8aba78233c.png","\u003Cp>\u003Cbr>\u003C/p>",{"id":78,"parentId":45,"name":79,"sortNum":13,"smallImage":80,"smallImageAlt":80,"introduction":81,"children":82,"elect":45,"childrenFlag":12},3,"Detectors","https://source.venuslabtech.com/mall-prod/635fa0d9-5f9f-4575-8fbf-70d07d4a0fcf.png","\u003Cp>\u003Cspan style=\"font-size: 19px; font-family: Arial;\">The VenusLab detector product series is core-positioned around the concept of \"full-wavelength coverage, full-scenario adaptation, and high-precision output\". It builds a complete product matrix spanning from basic optical signal monitoring to single-photon-level ultra-high-precision detection through 6 major segmented categories. Covering the full wavelength range from ultraviolet (185nm) to short-wave infrared (2500nm), with response speeds ranging from 50ns down to 1ns and detection sensitivity spanning from 0.1nW to the single-photon level, this series can meet the differentiated optical signal detection needs across multiple fields such as scientific research, industry, biomedicine, and security. It provides stable and accurate core sensing components for various light-related applications.\u003C/span>\u003C/p>\u003Cp>\u003Cbr>\u003C/p>",[83,87],{"id":84,"parentId":78,"name":85,"sortNum":12,"smallImage":86,"smallImageAlt":86,"introduction":76,"elect":45,"childrenFlag":12},18,"Photodetector","https://source.venuslabtech.com/mall-prod/33fb14c5-d255-496c-b822-a0b81ee1a6ba.png",{"id":88,"parentId":78,"name":89,"sortNum":13,"smallImage":90,"smallImageAlt":90,"introduction":76,"elect":45,"childrenFlag":12},19,"Photodiodes","https://source.venuslabtech.com/mall-prod/15133790-2487-4ce3-bc77-372db6368e9b.png",{"id":26,"parentId":45,"name":61,"sortNum":78,"smallImage":92,"smallImageAlt":92,"introduction":93,"children":94,"elect":45,"childrenFlag":12},"https://source.venuslabtech.com/mall-prod/02082dd8-575f-4441-8e63-81a43853d93c.png","\u003Cp style=\"line-height: 1.5;\">\u003Cspan style=\"font-size: 19px; font-family: Arial;\">Centered on the core concept of \"Precise Capture + Ecological Synergy\", the VenusLab imaging product series covers the entire imaging wavelength range from ultraviolet (200nm) to short-wave infrared (2500nm). It builds a complete product matrix that spans from microscopic imaging to weak light signal visualization through 4 major segmented product categories.\u003C/span>\u003C/p>\u003Cp style=\"line-height: 1.5;\">\u003Cspan style=\"font-size: 19px; font-family: Arial;\">The series can seamlessly interface with its detectors (such as single-photon counting modules and InGaAs detectors) and optical equipment, while boasting the combined characteristics of high resolution (up to 20 million pixels), high frame rate (up to 120fps), and low noise (dark current ≤ 1e-12 A). It meets the integrated needs of \"imaging - analysis - recording\" in fields including scientific research, industry, and biomedicine.\u003C/span>\u003C/p>",[95,99,103,105,110],{"id":96,"parentId":26,"name":97,"sortNum":12,"smallImage":98,"smallImageAlt":98,"introduction":76,"elect":45,"childrenFlag":12},24,"Scientific Cameras","https://source.venuslabtech.com/mall-prod/a53af2a6-2e06-4a58-936b-03479dda5ca0.png",{"id":100,"parentId":26,"name":101,"sortNum":13,"smallImage":102,"smallImageAlt":102,"introduction":76,"elect":45,"childrenFlag":12},25,"CMOS Cameras","https://source.venuslabtech.com/mall-prod/89dbbff2-301e-4dd6-a1a6-3196ea189a86.png",{"id":63,"parentId":26,"name":64,"sortNum":78,"smallImage":104,"smallImageAlt":104,"introduction":76,"elect":45,"childrenFlag":12},"https://source.venuslabtech.com/mall-prod/4362a829-8e2d-46a7-96c1-4c8ee45a6d15.png",{"id":106,"parentId":26,"name":107,"sortNum":108,"smallImage":109,"smallImageAlt":109,"introduction":76,"elect":45,"childrenFlag":12},32,"HDMI Cameras",9,"https://source.venuslabtech.com/mall-prod/4f44eb5c-8319-48da-b669-f3c4dbbcb13a.png",{"id":111,"parentId":26,"name":112,"sortNum":73,"smallImage":113,"smallImageAlt":113,"introduction":76,"elect":45,"childrenFlag":12},33,"Microscope Cameras","https://source.venuslabtech.com/mall-prod/d8690bc7-4af2-42a6-b02b-1cf084b52eb5.png",{"id":115,"parentId":45,"name":116,"sortNum":26,"smallImage":117,"smallImageAlt":117,"introduction":118,"children":119,"elect":45,"childrenFlag":12},5,"Optics & Fiber","https://source.venuslabtech.com/mall-prod/af136da6-6853-426d-8a86-5adc2985f50b.png","\u003Cp style=\"line-height: 1.5;\">\u003Cspan style=\"font-size: 19px; font-family: Arial;\">VenusLab's optical and fiber optic component products focus on high-precision optical signal regulation and transmission. They cover the entire chain from basic optical components to fiber optic integration solutions, and can form a synergistic effect with the company's own detectors, cameras and other products to build a complete optical system.\u003C/span>\u003C/p>",[120,124],{"id":121,"parentId":115,"name":122,"sortNum":12,"smallImage":123,"smallImageAlt":123,"introduction":76,"elect":45,"childrenFlag":12},34,"Imaging Optics","https://source.venuslabtech.com/mall-prod/ccadce05-879a-4005-bdf3-f0ea7c5c6ed7.png",{"id":125,"parentId":115,"name":126,"sortNum":78,"smallImage":127,"smallImageAlt":127,"introduction":76,"elect":45,"childrenFlag":12},36,"Fiber Parts","https://source.venuslabtech.com/mall-prod/1b80704b-5f12-40e1-b685-064d3055c56c.png",{"id":129,"parentId":45,"name":130,"sortNum":115,"smallImage":131,"smallImageAlt":131,"introduction":132,"children":133,"elect":45,"childrenFlag":12},6,"Opto-Mechanics","https://source.venuslabtech.com/mall-prod/3deebc29-027a-4603-b724-63f7e4fa6910.png","\u003Cp style=\"line-height: 1.5;\">\u003Cspan style=\"font-size: 19px; font-family: Arial;\">The VenusLab optomechanical products serve as the core carrier for supporting the stable operation of optical experiments and industrial optical systems, with \"Full-Dimensional Regulation + High-Stability Support + Extreme Environment Adaptability\" as their core value.They cover the full range of needs, spanning from \"microscopic position alignment\" to \"macroscopic system construction\", and from \"normal temperature &amp; conventional scenarios\" to \"high-low temperature/vacuum extreme scenarios\".\u003C/span>\u003C/p>\u003Cp style=\"line-height: 1.5;\">\u003Cspan style=\"font-size: 19px; font-family: Arial;\">These products can achieve seamless synergy with the company’s in-house detectors, imaging equipment, light sources, and other products, forming an integrated optical solution for \"optical signal generation - transmission - regulation - detection\". They provide precision mechanical control capabilities ranging from the micrometer to nanometer scale for the scientific research and industrial fields.\u003C/span>\u003C/p>",[134,138],{"id":135,"parentId":129,"name":136,"sortNum":115,"smallImage":137,"smallImageAlt":137,"introduction":76,"elect":45,"childrenFlag":12},62,"Optical Tables","https://source.venuslabtech.com/mall-prod/1016b0a2-f58c-42c5-8e30-2c2f70e9c4c4.png",{"id":139,"parentId":129,"name":140,"sortNum":129,"smallImage":141,"smallImageAlt":141,"introduction":76,"elect":45,"childrenFlag":12},63,"Temperature Stage","https://source.venuslabtech.com/mall-prod/9710b50f-7653-4488-a541-811f4d9b889c.png",{"id":143,"parentId":45,"name":144,"sortNum":129,"smallImage":145,"smallImageAlt":145,"introduction":146,"children":147,"elect":45,"childrenFlag":12},7,"Optical Test & Metrology","https://source.venuslabtech.com/mall-prod/88a64fab-6c58-416d-8630-cea8401c3ecb.png","\u003Cp style=\"line-height: 1.5;\">\u003Cspan style=\"font-size: 19px; font-family: Arial;\">VenusLab's optical measurement and characterization products are centered on the core of \"Full Parameter Coverage, Extreme Environment Adaptability, and Intelligent Analysis\".They cover four major categories: spectral measurement, power and energy measurement, beam analysis, and infrared temperature measurement and imaging.Together with the company's in-house optomechanical products, these products form a closed-loop solution for \"Precision Regulation - Accurate Measurement\".\u003C/span>\u003C/p>",[148],{"id":149,"parentId":143,"name":150,"sortNum":12,"smallImage":151,"smallImageAlt":151,"introduction":76,"elect":45,"childrenFlag":12},69,"Spectral Measurement","https://source.venuslabtech.com/mall-prod/db8d8151-da44-436e-834a-28644b643784.png",{"id":153,"parentId":45,"name":154,"sortNum":143,"smallImage":155,"smallImageAlt":155,"introduction":156,"children":157,"elect":45,"childrenFlag":12},8,"Systems & Applications","https://source.venuslabtech.com/mall-prod/151843f8-ac03-4d88-a343-c0fbd70e75d1.png","\u003Cp style=\"line-height: 1.5;\">\u003Cspan style=\"font-size: 19px; font-family: Arial;\">Centered on \"Basic Observation - High-Resolution Analysis\", VenusLab offers brightfield/fluorescence microscopy for routine high-efficiency imaging, and confocal/Raman microscopy focusing on ultra-high resolution and molecular spectroscopy integration. Sharing modules and unified interfaces for flexible switching, they provide one-stop solutions for \"morphology observation - composition - structural analysis\" in biomedicine and materials science.\u003C/span>\u003C/p>",[158,163],{"id":159,"parentId":153,"name":160,"sortNum":13,"smallImage":161,"smallImageAlt":161,"introduction":162,"elect":45,"childrenFlag":12},85,"Confocal/Raman Microscopy","https://source.venuslabtech.com/mall-prod/dbf92573-535b-4fcb-b200-b90f31ae2d3b.png","\u003Cp style=\"line-height: 1.5;\">\u003Cspan style=\"color: rgba(0, 0, 0, 0.85); font-size: 19px; font-family: Arial;\">The Confocal/Raman Microscopy System is a product of in-depth integration of confocal microscopic imaging technology and Raman spectroscopy technology. 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