We are excited to announce the release of our new Bi-Spectral Fluorescence Spectroradiometer for testing LED phosphor composition, fluorescent and reflective materials. The system is designed to lower costs for manufacturers by providing detailed fluorescence data to maximize performance.

The full text of our press release is below and you can always contact us for quotes and additional information.












SAN DIEGO, February 29, 2012- Gamma Scientific has developed a new spectroradiometer that is configured to quickly obtain detailed fluorescence data for any fluorescent or reflective material, including LED phosphors.

The Bi-Spectral Fluorescence Spectroradiometer takes precise measurements of both the transmitted and reflected spectrum of materials when illuminated by monochromatic light utilizing a pair of Gamma Scientific’s RadOMA series spectroradiometers. The system is able to simultaneously measure spectral reflectance, spectral transmittance and absorption while utilizing dual, calibrated integrating spheres to measure total flux. A single sphere configuration is also available.

Maximizing Performance and Lowering Costs for LED Phosphor Manufacturers

Gamma Scientific’s Bi-Spectral Spectroradiometer provides comprehensive fluorescence data for testing LED phosphor composition to maximize performance and lower costs for manufacturers. The system calculates which phosphor samples have the highest transmission, reflection and absorption. It also determines the exact wavelengths that fluoresce most intensely and the spectrum of fluorescing light at any excitation wavelength.

Additional Applications for Any Fluorescent or Reflective Material

With the ability to take detailed measurements for any fluorescent or reflective material, the Bi-Spectral Fluorescence Spectroradiometer is also designed to test fluorescent bulbs, papers, paints, dyes, films and fabrics. In addition, the system can be used for biological and scientific fluorescence measurement of organic compounds, cellular organisms, biological samples and mineral samples.

Data Analysis and Output

Fluorescence data produced by the spectroradiometer characterizes the absorption, reflection and transmission of samples. The data is graphed in 3D for clear visualization of where the samples fluoresce, and the software can be used to view, analyze and compare samples. Data is easily exported to Excel and other data analysis programs.

System Components

  • Two Gamma Scientific RadOMA Spectroradiometers
  • Two Gamma Scientific Integrating Spheres mounted on a rail system
  • Gamma Scientific FlexOptometer power meter
  • Xenon light source and monochromator
  • Optical mixing rod and lens tube
  • Sample holder placed between the two integrating spheres

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