[{"data":1,"prerenderedAt":173},["ShallowReactive",2],{"b4a4b23acb6a36ed2bb22dbf69be46c3":3,"ProductItem10035":7,"TopCategory":44,"ProductSelectProduct10035":145},{"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":17,"modelNumber":18,"meta":19,"configJson":20,"picList":21,"keywordsList":22,"newsList":23,"introduction":34,"configListList":35,"parentResp":36},10035,98,"SiC-VUV-AG Photodetector",1,2,"2025-08-27 16:46:59","2.5×2.5mm square photosensitive surface, corresponding to a φ6.25mm circular photosensitive dimension, balances micro-region precision and energy collection efficiency.","https://source.venuslabtech.com/mall-prod/08fecf18-4141-4d96-95e6-d680f021ecbc.png","https://source.venuslabtech.com/mall-prod/20ddea44-8eb8-4ab3-a3c9-b07eb1f876a3.png","SiC-180/200nm-2.5X2.5mm-AG8","[{\"name\":\"title\",\"label\":\"Title 标题\",\"content\":\"SiC-180/200nm-2.5X2.5mm-AG8 SiC UV Sensor | VenusLab\"},{\"name\":\"keywords\",\"label\":\"Keywords 关键词\",\"content\":\"SiC-180/200nm-2.5X2.5mm-AG8 sensor,180-200nm SiC component,2.5X2.5mm AG8 SiC,VenusLab SiC-180/200nm,deep UV SiC sensor,DUV detection SiC,AG8-series SiC sensor,high-sensitivity SiC 180nm,spectral analysis SiC module,industrial UV sensing SiC​.\"},{\"name\":\"description\",\"label\":\"Description 描述\",\"content\":\"VenusLab SiC-180/200nm-2.5X2.5mm-AG8: High-sensitivity SiC optical sensor (180-200nm, 2.5X2.5mm)—deep UV response, low noise, ideal for DUV detection, spectral analysis, industrial sensing. Explore now!\"},{\"name\":\"og:title\",\"label\":\"og:title\",\"content\":\"VenusLab SiC-180/200nm-2.5X2.5mm-AG8 – SiC Deep UV Sensor\"},{\"name\":\"og:type\",\"label\":\"og:type\",\"content\":\"website\"},{\"name\":\"og:description\",\"label\":\"og描述\",\"content\":\"180-200nm SiC sensor (2.5X2.5mm, AG8 spec) with excellent DUV response & stability—trusted in lab UV research, precision detection, optical systems.\"},{\"name\":\"og:image\",\"label\":\"og图片\",\"content\":\"https://source.venuslabtech.com/mall-prod/20ddea44-8eb8-4ab3-a3c9-b07eb1f876a3.png\"},{\"name\":\"og:url\",\"label\":\"og url\",\"content\":\"https://www.venuslabtech.com/products/sic-180-200nm-2.5x2.5mm-ag8\"},{\"name\":\"twitter:title\",\"label\":\"twitter:title\",\"content\":\"VenusLab SiC-180/200nm-2.5X2.5mm-AG8 – SiC Deep UV Sensor\"},{\"name\":\"twitter:description\",\"label\":\"twitter描述\",\"content\":\"180-200nm SiC sensor (2.5X2.5mm, AG8 spec) with excellent DUV response & stability—trusted in lab UV research, precision detection, optical systems.\"},{\"name\":\"twitter:image\",\"label\":\"twitter图片\",\"content\":\"https://source.venuslabtech.com/mall-prod/20ddea44-8eb8-4ab3-a3c9-b07eb1f876a3.png\"},{\"name\":\"twitter:card\",\"label\":\"twitter:card\",\"content\":\"summary_large_image\"},{\"name\":\"twitter:site\",\"label\":\"twitter:site\",\"content\":\"VenusLabtech\"}]","[{\"key1\":\"Photosensitive Size\",\"key2\":\"Response Time Constant\",\"value1\":\"φ6.25mm\",\"value2\":\"＜1uS\"},{\"key1\":\"Outline Dimensions\",\"key2\":\"Net Weight of the Detector\",\"value2\":\"0.10kg\",\"value1\":\"50mm X 38.9mm X 70mm\"}]",[],[],[24],{"id":25,"title":26,"time":27,"context":28,"mainImage":29,"status":12,"sortNum":30,"createTime":31,"updateTime":32,"description":33},10,"Shaping Light in Space: A Technical Guide to Spatial Light Modulators","2025-02-12 00:00:00","\u003Cp>\u003Cstrong>Introduction\u003C/strong>\u003Cbr>\u003Cbr>Spatial Light Modulators (SLMs) are dynamic optical devices that control the amplitude, phase, or polarization of light across a two-dimensional plane. By modulating the wavefront of a laser or other coherent beam in real time, SLMs enable beam steering, holography, adaptive optics, and advanced microscopy. This guide explains the core technologies behind SLMs, key performance metrics, common architectures, and practical considerations for integrating them into optical systems.\u003C/p>\u003Cp>\u003Cimg src=\"https://source.venuslabtech.com/mall_1-prod/6f93bb13-4652-4df7-bcf8-63d4c6a0a0ef.png\" alt=\"\" data-href=\"\" style=\"\"/>\u003C/p>\u003Ch2>1. Core Technologies\u003C/h2>\u003Cul>\u003Cli>Liquid Crystal on Silicon (LCoS) A reflective microdisplay of liquid-crystal pixels on a silicon backplane. Applying voltage to each pixel changes the liquid-crystal orientation, imparting a controlled phase delay to the reflected light. LCoS SLMs offer high resolution (up to 4K), excellent fill factor, and analog phase modulation (0–2π).\u003C/li>\u003Cli>Digital Micromirror Device (DMD) An array of micrometer-scale mirrors that tilt between two positions (±12°) to encode binary amplitude patterns. Fast switching rates (>20 kHz) make DMDs ideal for structured illumination, high-speed projection, and binary-phase holography, but phase-only modulation requires additional optics.\u003C/li>\u003Cli>Acousto-Optic Modulator (AOM) Arrays Acoustic waves in a crystal create a dynamic diffraction grating. By controlling radio-frequency inputs, one can steer and shape the beam. AOM arrays provide nanosecond-scale response but typically offer limited pixel counts and analog amplitude control rather than full phase modulation.\u003C/li>\u003C/ul>\u003Cp>\u003Cbr>\u003C/p>\u003Ch2>2. Key Performance Metrics\u003C/h2>\u003Cul>\u003Cli>Resolution & Fill Factor The number of pixels (e.g., 1920×1080) and the active aperture fraction impact spatial fidelity. Higher resolution enables finer beam shaping and larger field of view, while a high fill factor reduces diffractive artifacts.\u003C/li>\u003Cli>Phase Stroke & Repeatability Phase stroke (maximum phase shift) should cover at least 2π to enable full wavefront control. Repeatability—pixel-to-pixel consistency and low hysteresis—ensures predictable modulation, crucial for holographic imaging or correction.\u003C/li>\u003Cli>Refresh Rate & Latency Refresh rates range from tens of hertz (LC devices) to tens of kilohertz (DMDs). Lower latency supports dynamic beam steering (e.g., free-space optical communication) and fast adaptive correction for aberrations.\u003C/li>\u003Cli>Diffraction Efficiency & Contrast Ratio The ratio of light directed into the desired diffraction order versus total input power. High efficiency minimizes power loss; high contrast (dark-state extinction) improves image quality in projection and microscopy.\u003C/li>\u003C/ul>\u003Cp>\u003Cbr>\u003C/p>\u003Ch2>3. System Architectures\u003C/h2>\u003Cul>\u003Cli>Phase-Only vs. Amplitude-Only vs. Complex Modulation • Phase-only SLMs (e.g., LCoS) are used for holography and aberration correction. • Amplitude-only SLMs (e.g., DMD) suit structured illumination and intensity patterning. • Complex modulation combines both via dual-SLM setups or by encoding amplitude into phase holograms.\u003C/li>\u003Cli>4f Optical Configuration A pair of lenses arranged in a 4f layout allows Fourier-plane access to the SLM. By placing the SLM at the Fourier plane, one can shape the beam’s spatial frequency content, enabling beam focusing, angular deflection, or multiplexed hologram projection.\u003C/li>\u003Cli>Closed-Loop Adaptive Optics Coupling an SLM with a wavefront sensor (e.g., Shack–Hartmann) in a feedback loop corrects aberrations in real time. This is critical in astronomy, ophthalmology, and microscopy for restoring diffraction-limited performance.\u003C/li>\u003C/ul>\u003Cp>\u003Cbr>\u003C/p>\u003Ch2>4. Applications & Best Practices\u003C/h2>\u003Cul>\u003Cli>Holographic Display & Projection SLMs generate computer-calculated holograms that reconstruct 3D images in free space. Phase-only devices maximize image fidelity, while high refresh rates reduce flicker.\u003C/li>\u003Cli>Optical Trapping & Micromanipulation In optical tweezers, SLMs create multiple dynamically reconfigurable traps by generating multi-spot holograms. Phase precision ensures stable trap stiffness and particle control.\u003C/li>\u003Cli>Multiphoton Microscopy & Beam Shaping Shaping femtosecond laser pulses with SLMs corrects for sample-induced aberrations and customizes focal patterns (e.g., Bessel beams, lattice illumination) for deeper, faster imaging.\u003C/li>\u003Cli>Practical Tips: Polarization Alignment: Ensure input polarization matches the SLM’s optimal axis (typically linear for LCoS). Calibration Routines: Use lookup tables or iterative algorithms (e.g., Gerchberg–Saxton) to map grayscale values to precise phase shifts. Thermal Management: SLMs dissipate heat—especially digital devices. Maintain stable temperature to avoid drift and pixel defects.\u003C/li>\u003C/ul>\u003Cp>\u003Cbr>\u003C/p>\u003Cp>\u003Cstrong>Conclusion\u003C/strong>\u003Cbr>\u003Cbr>Spatial Light Modulators unlock unprecedented control over light fields, enabling breakthroughs in imaging, display, and optical manipulation. By understanding different SLM technologies, evaluating performance metrics, and designing appropriate optical architectures, researchers and engineers can tailor light to meet the demands of cutting-edge applications.\u003C/p>","https://source.venuslabtech.com/mall-prod/49161989-afbb-436b-bdfd-c500290298d3.jpg","1","2025-02-21 10:45:50","2025-09-22 16:03:09","This guide explains the core technologies behind SLMs, key performance metrics, common architectures, and practical considerations for integrating them into optical systems.","\u003Cp>\u003Cspan style=\"color: rgba(0, 0, 0, 0.85); background-color: rgb(255, 255, 255); font-size: 19px; font-family: Arial;\">Covering scientific - grade VUV spectrometer modules (compatible with standard aperture sizes, balancing signal intensity and resolution) and VUV light source stability monitoring (medium - area uniform collection, ensuring data representativeness); \u003C/span>\u003C/p>\u003Cp>\u003Cspan style=\"color: rgba(0, 0, 0, 0.85); background-color: rgb(255, 255, 255); font-size: 19px; font-family: Arial;\">Its visible - blind characteristic eliminates ambient stray light interference, and the adjustable gain flexibly matches the laboratory - level dynamic signal range (from low to moderate light intensities), meeting multi - scenario testing requirements.\u003C/span>\u003C/p>",[],[37,41],{"id":38,"parentId":39,"name":40},3,0,"Detectors",{"id":42,"parentId":38,"name":43},18,"Photodetector",{"code":4,"msg":5,"data":45},[46,55,65,92,106,120,130],{"id":13,"parentId":39,"name":47,"sortNum":12,"smallImage":48,"smallImageAlt":48,"introduction":49,"children":50,"elect":39,"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>",[51],{"id":25,"parentId":13,"name":52,"sortNum":13,"smallImage":53,"smallImageAlt":53,"introduction":54,"elect":39,"childrenFlag":12},"Laser","https://source.venuslabtech.com/mall-prod/e90dbc77-1a1b-4c2f-b6ab-2b8aba78233c.png","\u003Cp>\u003Cbr>\u003C/p>",{"id":38,"parentId":39,"name":40,"sortNum":13,"smallImage":56,"smallImageAlt":56,"introduction":57,"children":58,"elect":39,"childrenFlag":12},"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>",[59,61],{"id":42,"parentId":38,"name":43,"sortNum":12,"smallImage":60,"smallImageAlt":60,"introduction":54,"elect":39,"childrenFlag":12},"https://source.venuslabtech.com/mall-prod/33fb14c5-d255-496c-b822-a0b81ee1a6ba.png",{"id":62,"parentId":38,"name":63,"sortNum":13,"smallImage":64,"smallImageAlt":64,"introduction":54,"elect":39,"childrenFlag":12},19,"Photodiodes","https://source.venuslabtech.com/mall-prod/15133790-2487-4ce3-bc77-372db6368e9b.png",{"id":66,"parentId":39,"name":67,"sortNum":38,"smallImage":68,"smallImageAlt":68,"introduction":69,"children":70,"elect":39,"childrenFlag":12},4,"Imaging","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>",[71,75,79,83,88],{"id":72,"parentId":66,"name":73,"sortNum":12,"smallImage":74,"smallImageAlt":74,"introduction":54,"elect":39,"childrenFlag":12},24,"Scientific Cameras","https://source.venuslabtech.com/mall-prod/a53af2a6-2e06-4a58-936b-03479dda5ca0.png",{"id":76,"parentId":66,"name":77,"sortNum":13,"smallImage":78,"smallImageAlt":78,"introduction":54,"elect":39,"childrenFlag":12},25,"CMOS Cameras","https://source.venuslabtech.com/mall-prod/89dbbff2-301e-4dd6-a1a6-3196ea189a86.png",{"id":80,"parentId":66,"name":81,"sortNum":38,"smallImage":82,"smallImageAlt":82,"introduction":54,"elect":39,"childrenFlag":12},26,"CCD Cameras","https://source.venuslabtech.com/mall-prod/4362a829-8e2d-46a7-96c1-4c8ee45a6d15.png",{"id":84,"parentId":66,"name":85,"sortNum":86,"smallImage":87,"smallImageAlt":87,"introduction":54,"elect":39,"childrenFlag":12},32,"HDMI Cameras",9,"https://source.venuslabtech.com/mall-prod/4f44eb5c-8319-48da-b669-f3c4dbbcb13a.png",{"id":89,"parentId":66,"name":90,"sortNum":25,"smallImage":91,"smallImageAlt":91,"introduction":54,"elect":39,"childrenFlag":12},33,"Microscope Cameras","https://source.venuslabtech.com/mall-prod/d8690bc7-4af2-42a6-b02b-1cf084b52eb5.png",{"id":93,"parentId":39,"name":94,"sortNum":66,"smallImage":95,"smallImageAlt":95,"introduction":96,"children":97,"elect":39,"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>",[98,102],{"id":99,"parentId":93,"name":100,"sortNum":12,"smallImage":101,"smallImageAlt":101,"introduction":54,"elect":39,"childrenFlag":12},34,"Imaging Optics","https://source.venuslabtech.com/mall-prod/ccadce05-879a-4005-bdf3-f0ea7c5c6ed7.png",{"id":103,"parentId":93,"name":104,"sortNum":38,"smallImage":105,"smallImageAlt":105,"introduction":54,"elect":39,"childrenFlag":12},36,"Fiber Parts","https://source.venuslabtech.com/mall-prod/1b80704b-5f12-40e1-b685-064d3055c56c.png",{"id":107,"parentId":39,"name":108,"sortNum":93,"smallImage":109,"smallImageAlt":109,"introduction":110,"children":111,"elect":39,"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 & 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>",[112,116],{"id":113,"parentId":107,"name":114,"sortNum":93,"smallImage":115,"smallImageAlt":115,"introduction":54,"elect":39,"childrenFlag":12},62,"Optical Tables","https://source.venuslabtech.com/mall-prod/1016b0a2-f58c-42c5-8e30-2c2f70e9c4c4.png",{"id":117,"parentId":107,"name":118,"sortNum":107,"smallImage":119,"smallImageAlt":119,"introduction":54,"elect":39,"childrenFlag":12},63,"Temperature Stage","https://source.venuslabtech.com/mall-prod/9710b50f-7653-4488-a541-811f4d9b889c.png",{"id":121,"parentId":39,"name":122,"sortNum":107,"smallImage":123,"smallImageAlt":123,"introduction":124,"children":125,"elect":39,"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>",[126],{"id":127,"parentId":121,"name":128,"sortNum":12,"smallImage":129,"smallImageAlt":129,"introduction":54,"elect":39,"childrenFlag":12},69,"Spectral Measurement","https://source.venuslabtech.com/mall-prod/db8d8151-da44-436e-834a-28644b643784.png",{"id":131,"parentId":39,"name":132,"sortNum":121,"smallImage":133,"smallImageAlt":133,"introduction":134,"children":135,"elect":39,"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>",[136,141],{"id":137,"parentId":131,"name":138,"sortNum":13,"smallImage":139,"smallImageAlt":139,"introduction":140,"elect":39,"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. It uses confocal technology to achieve high-resolution optical imaging and spatial localization of samples, and simultaneously acquires the molecular structure \"fingerprint information\" of designated microregions through Raman spectroscopy, ultimately realizing integrated detection of \"morphological observation - component identification - structural analysis\".\u003C/span>\u003C/p>",{"id":142,"parentId":131,"name":143,"sortNum":38,"smallImage":144,"smallImageAlt":144,"introduction":54,"childrenFlag":12},197,"Biological microscopy","https://source.venuslabtech.com/mall-prod/139800a9-89d5-4fa3-a2b7-4a3760edc22c.png",{"code":4,"msg":5,"data":146},{"productDTOS":147},[148,154,155,161,167],{"id":149,"name":11,"smallImage":150,"description":151,"modelNumber":152,"introduction":153},10034,"https://source.venuslabtech.com/mall-prod/a20af76b-9d23-4ddc-9c21-67249eaf1422.png","1×1mm square photosensitive surface, matching the φ1mm circular photosensitive dimension, focuses on nanoscale spatial resolution (breaking through the micro-region detection limit of conventional detectors).","SiC-180/200nm-1 X 1mm-AG8","\u003Cp>\u003Cspan style=\"color: rgba(0, 0, 0, 0.85); background-color: rgb(255, 255, 255); font-size: 19px; font-family: Arial;\">Suitable for nanoscale defect detection in VUV lithography masks (capturing sub - micrometer - level defect signals) and single - molecule layer surface analysis (enabling high - resolution analysis of the interaction between VUV light and ultra - thin samples);\u003C/span>\u003C/p>\u003Cp>\u003Cspan style=\"color: rgba(0, 0, 0, 0.85); background-color: rgb(255, 255, 255); font-size: 19px; font-family: Arial;\"> Leveraging the SiC - based low dark current characteristic, its 8 - level gain precisely amplifies extremely weak VUV signals. The vacuum flange is compatible with a high - vacuum environment (≤10⁻⁴ Pa), ensuring ultra - high - precision measurements free from interference by residual gases.\u003C/span>\u003C/p>",{"id":9,"name":11,"smallImage":17,"description":15,"modelNumber":18,"introduction":34},{"id":156,"name":11,"smallImage":157,"description":158,"modelNumber":159,"introduction":160},10042,"https://source.venuslabtech.com/mall-prod/b7a551e4-d742-4e03-be69-e650a1d9e031.png","5mm circular photosensitive dimension (diameter φ19.6mm), focusing on high-efficiency energy capture over a medium area, and suitable for conventional VUV testing scenarios.","SiC-180/200nm-5mm-AG8","\u003Cp>\u003Cspan style=\"color: rgba(0, 0, 0, 0.85); background-color: rgb(255, 255, 255); font-size: 19px; font-family: Arial;\">Suitable for VUV coating uniformity inspection (covering a typical area in a single scan to enable rapid evaluation of coating quality) and plasma transient radiation diagnostics (capturing millisecond-level VUV pulse signals); \u003C/span>\u003C/p>\u003Cp>\u003Cbr>\u003C/p>\u003Cp>\u003Cspan style=\"color: rgba(0, 0, 0, 0.85); background-color: rgb(255, 255, 255); font-size: 19px; font-family: Arial;\">The high-flux VUV radiation resistance characteristic of SiC ensures long service life, the 8-level gain covers the full-scenario range from \"weak signal analysis\" to \"strong pulse quantification\", and the vacuum flange supports high-vacuum chamber integration.\u003C/span>\u003C/p>",{"id":162,"name":11,"smallImage":163,"description":164,"modelNumber":165,"introduction":166},10043,"https://source.venuslabtech.com/mall-prod/86fecde8-13ef-4015-a6c8-5537521b842f.png","5×5mm square photosensitive surface, corresponding to a φ25mm circular photosensitive dimension, focusing on wide-range VUV energy collection and breaking through the conventional detection area limit.\n","SiC-180/200nm-5×5mm-AG8","\u003Cp>\u003Cspan style=\"color: rgba(0, 0, 0, 0.85); background-color: rgb(255, 255, 255); font-size: 19px; font-family: Arial;\">Compatible with large-area thin film deposition monitoring (wide-area coverage for efficient coating uniformity detection) and VUV plasma wide-area diagnostics (a single detector covers a larger spatial range, reducing the number of scans);\u003C/span>\u003C/p>\u003Cp>\u003Cbr>\u003C/p>\u003Cp>\u003Cspan style=\"color: rgba(0, 0, 0, 0.85); background-color: rgb(255, 255, 255); font-size: 19px; font-family: Arial;\"> The SiC-based high stability and radiation resistance performance ensure long-term reliable operation, the adjustable gain enables seamless switching between \"weak light signals\" and \"strong radiation pulses\", and the vacuum flange is compatible with a high-vacuum environment (≤10⁻⁴Pa).\u003C/span>\u003C/p>",{"id":168,"name":11,"smallImage":169,"description":170,"modelNumber":171,"introduction":172},10044,"https://source.venuslabtech.com/mall-prod/8906fce3-4536-4266-beb3-f6a342ca47cb.png","9mm circular photosensitive dimension (diameter φ63.5mm), enabling ultra-large-area low-light signal collection and filling the gap in wide-range low-illuminance VUV detection.","SiC-180/200nm-9mm-AG8","\u003Cp>\u003Cspan style=\"color: rgba(0, 0, 0, 0.85); background-color: rgb(255, 255, 255); font-size: 19px; font-family: Arial;\">Suitable for VUV light source far-field distribution testing (wide-area coverage of low-illuminance signals to restore the spatial distribution characteristics of the light source) and large-area coating uniformity inspection (covering an ultra-large area in a single scan to improve inspection efficiency); \u003C/span>\u003C/p>\u003Cp>\u003Cbr>\u003C/p>\u003Cp>\u003Cspan style=\"color: rgba(0, 0, 0, 0.85); background-color: rgb(255, 255, 255); font-size: 19px; font-family: Arial;\">The vacuum flange supports high-vacuum chamber integration, and the adjustable gain breaks through the dynamic range bottleneck of traditional detectors, enabling flexible switching between \"wide-area low light\" and \"local strong light\" to meet the testing needs of complex scenarios.\u003C/span>\u003C/p>",1764059230972]