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IMA™ is an ultrafast and all-in-one customizable hyperspectral microscopy platform of high spatial and spectral resolution. The completely integrated system rapidly maps diffuse reflectance, transmittance, photoluminescence, electroluminescence and fluorescence in the VIS-NIR-SWIR spectral range. Based on high throughput global ...
  • Spectral Range: 400 - 1700 nm
  • Spectral Resolution: <2.5 or <4 nm
  • Detection Spectral Range: 400 - 1650 nm
  • Excitation Laser Wavelength: 532nm, Other
  • Magnification: 20x, 50x, 60x, 100x 
  • ...
Data Sheet
MSV-5100 UV-Visible/NIR Microspectrometer
JASCO Inc
The MSV-5000 Series UV-Visible/NIR Microspectrometers can be used for a broad range of applications including the measurement of transmittance/reflectance spectra, band gap, film thickness, evaluation of the optical characteristics of functional crystals and color analysis of microscopic samples. The MSV-5000 series includes 3 ...
  • Spectral Range: 200 - 900 nm
  • Spectral Resolution: N/A nm
  • Detection Spectral Range: 200 - 2700 nm
  • Excitation Laser Wavelength: Other
  • Magnification: 32 
  • ...
Data Sheet
MSV-5200 UV-Visible/NIR Microspectrometer
JASCO Inc
The MSV-5000 Series UV-Visible/NIR Microspectrometers can be used for a broad range of applications including the measurement of transmittance/reflectance spectra, band gap, film thickness, evaluation of the optical characteristics of functional crystals and color analysis of microscopic samples. The MSV-5000 series includes 3 ...
  • Spectral Range: 200 - 2700 nm
  • Spectral Resolution: N/A nm
  • Detection Spectral Range: 200 - 2700 nm
  • Excitation Laser Wavelength: Other
  • Magnification: 32 
  • ...
Data Sheet
MSV-5300 UV-Visible/NIR Microspectrometer
JASCO Inc
The MSV-5000 Series UV-Visible/NIR Microspectrometers can be used for a broad range of applications including the measurement of transmittance/reflectance spectra, band gap, film thickness, evaluation of the optical characteristics of functional crystals and color analysis of microscopic samples. The MSV-5000 series includes 3 ...
  • Spectral Range: 200 - 1600 nm
  • Spectral Resolution: N/A nm
  • Detection Spectral Range: 200 - 2700 nm
  • Excitation Laser Wavelength: Other
  • Magnification: 32 
  • ...
Data Sheet
Using a standard microscope for luminescence characterization often means inefficient fiber-optic coupling to the spectrometer, and difficult access for many sample configurations, such as side-emitting devices, or upright cryostats. Nor do standard microscopes offer flexibility for coupling multiple lasers for photoluminescence ...
  • Spectral Range: 200 - 1600 nm
  • Spectral Resolution: 0.1 nm
  • Detection Spectral Range: 190 - 1600 nm
  • Excitation Laser Wavelength:
  • Magnification: 100 
  • ...
Data Sheet
Using a standard microscope for luminescence characterization often means inefficient fiber-optic coupling to the spectrometer, and difficult access for many sample configurations, such as side-emitting devices, or upright cryostats. Nor do standard microscopes offer flexibility for coupling multiple lasers for photoluminescence ...
  • Spectral Range: 200 - 1600 nm
  • Spectral Resolution: 0.18 nm
  • Detection Spectral Range: 200 - 1050 nm
  • Excitation Laser Wavelength: 532nm
  • Magnification: 10 
  • ...
Data Sheet

Did You know?

Microspectrometers are most commonly seen in technical research labs, but they have also played a role in unlocking and preserving American history. Conservators working in Colonial Williamsburg, VA have been putting Fourier-Transform Infrared Microspectrometers (FTIR) to work in their material analysis labs in order to study the historic American artwork and artifacts in their collection. By analyzing a micron-scale sample of an artifact with FTIR, conservators can determine its unique material composition. This knowledge helps these scientists to learn more about the historical manufacturing processes used to create the item and better informs their choice of preservation techniques to avoid damaging artifacts.