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FAQS on optical spectroscope
Q: 什么是光学光谱仪(optical spectroscope)?
A: 光学光谱仪是一种通过分析物质与光的相互作用来测定其成分和特性的仪器。它利用分光技术将光分解为不同波长的光谱。广泛应用于化学、天文学和环境监测等领域。
Q: 光学粒子传感器(optical particle sensor)如何工作?
A: 光学粒子传感器通过发射光束并检测粒子散射或吸收的光信号来识别粒子。其原理基于光散射强度与粒子大小、浓度的相关性。常用于空气质量监测和工业粉尘检测。
Q: 光学粒子计数器传感器(optical particle counter sensor)的主要应用场景有哪些?
A: 该传感器主要用于实时监测空气中的微粒数量及尺寸分布,例如洁净室、医院手术室或半导体制造环境。可快速检测PM2.5、PM10等污染物。也用于实验室研究和工业过程控制。
Q: 光学光谱仪与光学粒子传感器有何区别?
A: 光学光谱仪侧重于分析物质的光谱特性以确定成分,而光学粒子传感器专注于检测悬浮颗粒的物理参数(如数量、大小)。前者多用于成分分析,后者更适用于环境或工业中的颗粒监测。
Q: 光学粒子计数器传感器的优势是什么?
A: 其优势包括非接触式测量、高灵敏度和实时数据输出。能够同时统计多个粒径范围的颗粒数量。适用于需要快速响应和高精度的场景。
Q: 光学光谱仪在环境监测中起什么作用?
A: 它可用于识别大气或水体中的污染物种类及浓度,例如检测温室气体或重金属离子。通过光谱特征分析实现精准定性定量。是环境科研与治理的重要工具。
Q: 如何选择光学粒子传感器与光学光谱仪的组合方案?
A: 若需同时监测颗粒物理特性与化学成分,可将两者集成使用。例如,用传感器统计颗粒数量,光谱仪分析其物质组成。适用于复杂污染源解析或工业过程质量控制。
