Xenon Light Source Spectrum

Standard and high power output options are available.

Xenon light source spectrum.

The high color temperature 6000k of the xenon lamps is a close match to the solar temperature. The 175w xe light source xe spectrum is a compact and light weight high intensity light source. It is especially suitable as a light source for spectroscopy microscopy optical scanning and industrial uses as well as for use with sp s popular digikröm monochromators and spectrographs. It is especially suitable as a light source for spectroscopy microscopy optical scanning and industrial uses as well as for use with sp s popular digikröm monochromators and spectrographs.

Pulsed xenon sources are high intensity with a lower duty cycle making them ideal for measurements where high intensity uv light can damage the sample. Thus microplate readers that use xenon flash lamps allow for a larger range of assays at lower concentrations. This results in very similar solar spectra in the uv and vis although the source has some xe emissions lines in the near ir. Although not directly pertinent here another feature of xenon is that its spectral response closely resembles that of 5500 k sunlight especially in the visible between 400 nm and 700 nm.

Citation needed light intensity ranges from 20 000 to 500 000 cd cm 2. The purpose of the xenon light source is to provide a controllable indoor test facility under laboratory conditions used for the testing of solar cells sun screen plastics and other materials. This spectral region can contain about 10 of the total emitted light. Xenon light source is one of the essential equipment for studying solar cells.

Xenon xe light sources offer relatively smooth emission from uv to the visible spectrums with characteristic wavelengths emitted from 750 1000 nm. Xenon light sources offer very high intensity in the uv and are useful for absorbance fluorescence or reflectance measurements. Bmg labtech uses high performance xenon flash lamps in our microplate readers as high energy xenon flash lamps in contrast provide a single light source with more energy over a broader spectral range. In addition since it is a flash lamp and not a continuous wave lamp that can.

The sun like emission spectrum and 5800 k color temperature of xenon light sources make them a good choice for solar simulation as well as absorption and fluorescence and source spectral scanning applications. For some applications such as endoscopy and dental technology light guide systems are included.