Description
Specifications Table
Product Material – Metal (box) with vacuum-sealed photocathode
Grade – Laboratory/Research Grade
Application – Light detection, photoelectric experiments, photon sensitivity testing
Product Overview
The Photo Cell Vacuum Type Mounted in Metal Box with Aperture for Light is a precision-engineered device designed for accurate light detection and photoelectric experiments. Encased in a robust metal housing, this vacuum-sealed photo cell ensures minimal interference from external factors, providing reliable and consistent performance in controlled environments. The integrated aperture allows for targeted light exposure, making it ideal for applications requiring high sensitivity and precision. The vacuum-sealed design enhances the longevity of the photocathode, ensuring sustained responsiveness to light stimuli. Whether used in educational settings or advanced research, this photo cell delivers exceptional photon-to-electron conversion efficiency, making it a versatile tool for experiments involving light intensity measurement, photoemission studies, and optical signal processing. The metal enclosure not only protects the delicate internal components but also provides stability during prolonged use, ensuring durability and repeatability in results.
FAQs
1. What type of light sources are compatible with this vacuum photo cell?
This photo cell is compatible with a wide range of light sources, including visible light, UV, and low-intensity light beams, depending on the photocathode material used.
2. Can this photo cell be used for quantitative light measurement?
Yes, the vacuum photo cell is designed for quantitative light measurement, offering precise photon detection and electron emission proportional to light intensity.
3. Are there any alternatives to this vacuum-type photo cell for similar applications?
Alternatives include semiconductor-based photodiodes or photomultiplier tubes, though vacuum photo cells are preferred for their high sensitivity and low noise in specific experiments.
4. How should this photo cell be stored when not in use?
Store the photo cell in a dry, dust-free environment, preferably in its original packaging or a protective case to prevent damage to the aperture or internal components.
5. Is this photo cell suitable for high-frequency light modulation experiments?
Yes, the vacuum design allows for rapid response times, making it suitable for high-frequency light modulation and fast optical signal detection.
