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- Hitachi KokUnited Statei Electric America
- IDEX Health & Science | Melles Griot
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- Motion Analysis Inc
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- New England Optical Systems Inc - NEOS
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- Panavision SVI LLC
- Phase 1 Technology Corporation
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- The Crowley
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- Pembroke Instruments, LLC
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- CMOS Sensor Inc.
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- Extech Instruments Division
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- NP Photonics, Inc.
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- Ocean Insight
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- OSI Optoelectronics
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- Sierra-Olympic Systems, Inc.
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光电查为您提供3个产品。下载资料,获取报价,实现功能、价格及供应的优化选择。
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传感器类型: iCCD # 像素(宽度): 1380 # 像素(高度): 1024 像素大小: 6.47um 峰值量子效率: 60%自1999年推出以来,XR/Mega-10™一直是生命科学应用中荧光成像ICCD相机产品的性价比做的较好的。在标准配置中,扩展的Blue Gen III提供较宽的光谱响应,从近红外一直优化到400nm以下。或者,新的价格较低的XR/Mega-10LC™提供相同的固有规格,但在光谱的蓝绿区域具有短波长截止。扩展蓝色和–LC™电子管类型均为传统的薄膜光电阴极设计。相对于Stanford Photonics提供的用于较苛刻检测要求的较好无膜光电阴极XR/Mega-10EX™产品,这意味着有意义的成本节约。XR/Mega-10™和XR/Mega-10LC™都使用索尼xx285图像传感器,以每秒15至120帧的速度获得百万像素、奈奎斯特限制分辨率。增强管以1.6:1的锥度比进行光纤耦合,在图像平面上产生10微米像素(标称)。专有的单步粘合可确保较大的系统分辨率和对比度。Stanford Photonics XR™相机是市场上先进具有独有ABF™(自动明场)功能的产品系列,该功能可即时调整光电阴极门时间和增强器增益,以补偿长达七十年的光级变化。XR/Mega-10™和-10LC™与Mac®和PC兼容,并由许多高端图像捕捉和分析系统支持,无需使用第二台相机,即可对亮度和明场成像差异较大的样品进行手动测量。
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传感器类型: iCCD # 像素(宽度): 1380 # 像素(高度): 1024 像素大小: 6.47um 峰值量子效率: 70%XR/Mega-10Extreme™ICCD相机平台为在探测极限附近工作的科学家提供了较高的分辨率、速度和灵敏度选项。使用扩展蓝光/无胶片第三代或先进设计GaAsP增强管技术,可提供从近紫外到近红外的优化成像,速度范围为每秒15至120帧(FPS),分辨率为百万像素、奈奎斯特极限分辨率。XR/Mega-10EX™采用光纤耦合,锥度比为1.6:1,在图像平面上产生10微米像素(标称)。Stanford Photonics XR™相机是市场上先进一款具有独有ABF™(自动明场)功能的产品,该功能可即时调整光电阴极门时间和增强器增益,以补偿长达七十年的光级变化,从而无需第二台相机即可对亮度和明场成像差异较大的样品进行手动测量。XR/Mega-10EX™兼容Mac®和PC,支持多种高端图像采集和分析系统。
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传感器类型: iCCD # 像素(宽度): 1380 # 像素(高度): 1024 像素大小: 6.47um 峰值量子效率: 70%XR/Mega-10Z™ICCD相机平台是一款突破性产品,可将低光成像和检测性能推向新的极限。Stanford Photonics将GaAsP增强器技术的高QE和低固有暗电流特性与珀耳帖冷却相结合,使视频速率采样的暗电流/暗计数几乎为零。由于双MCP放大级提供的高增益,单光子事件可以被数字化和可视化,远高于将增强图像转换为电子2-D图像的CCD的读出噪声水平。因此,读取噪声也不是影响实验结果的因素。XR/Mega-10Z™是商业市场上先进个展示有效读取噪声和零暗计数水平的成像产品。双MCP结构的另一个好处是在高增益图像中离子反馈噪声(或有时称为“闪烁”噪声)的显著降低。即使在500K到1000K的增益下,离子反馈几乎不存在,图像的特征是光子统计,而不是在较大增益下使用单个MCP增强器时常见的杂散噪声。XR/Mega-10Z™的附加功能是CCD的珀耳帖冷却(用于延长曝光/延时应用)和独有的ABF™(自动明场)功能,该功能可即时调整光电阴极门时间和增强器增益,以补偿高达七十年的光级变化。允许在不需要第二照相机的情况下对具有大的亮度变化和亮场成像的样品进行不用手的测量。XR/Mega-10Z™正在申请专利。