Xenon arc lamp spectrum
The output of a pure xenon short-arc lamp offers fairly continuous spectral power distribution with a color temperature of about 6200K andclose to 100. The radiometric data shown at the end of this section was measured in our Standards Laboratory. Xenon lamps emit a broad spectrum from UV to IR (185-2000 nm) similar to sunlight.
Another light source used in fluorescence microscopy is the xenon arc lamp (Figure 21), which exhibits a relatively continuous output spectrum in the visible range. The most common light source is a Xenon arc lamp with filters installed to approximate the AM1.
A highly illuminant point light source with continuous spectra, which radiates light that is the closest of all artificial light sources to sunlight. IR ResourcesKey information for visiting instruments including interfaces, services and environmental specifications.
The power supply unit should never be used to power any other devices. The Q-SUN family of xenon-arc testers uses xenon-arc lamps to produce the most realistic reproduction of full spectrum sunlight including UV, visible light, and infrared radiation. Mercury Xenon DC Short Arc LampsXenon Arc Lamps Mercury Xenon AC Short Arc LampsHow are Short Arc Lamps ManufacturedSafety Precautions. Thus we need to select a light source that approximates the solarspectrum we want to simulate, be it AM0 for space applications of AM1. The Right Choice -UV Fluorescent Testing or Xenon Arc Testing?
Performing a robust, high-accuracy wavelength calibration with GPI has been one of the primary challenges of the pipeline development. The high pressure xenon arc lamp is often used in fluorescence spectrophotometers because it has an energy continuum extending from the ultraviolet into the infrared. With low resolution selected on each arm, the entire spectrumfrom the blue cutoff of the optical fibres (around 3800 Angstroms) to the red limit of thedetectors at around 1 micron can be obtained in a single shot.
Keine Kommentare:
Kommentar veröffentlichen