RIMA™ Hyperspectral Raman Imaging System
Description
The global hyperspectral Raman imager (RIMA™) developed by Photon etc. provides rapid spectral and spatial characterization of advanced materials over large areas (up to 1 mm x 1 mm and more). RIMA™ captures monochromatic images of the entire field of view, wavelength after wavelength.
RIMA™ Hyperspectral Raman Imaging System is at the forefront of Raman microscopy; it is an essential system that provides accurate information on growth, population distribution, uniformity, stress, and other critical properties. By combining this rich information obtained from Raman spectroscopic fingerprints with the speed of global hyperspectral imaging, RIMA™ extends the limits of sample analysis and is a powerful non-invasive imaging modality for material and biomedical sciences.
FREQUENTLY ASKED QUESTIONS ON HYPERSPECTRAL RAMAN IMAGING
What is Hyperspectral Raman Imaging?
Hyperspectral Raman imaging is an analytical technique that combines Raman spectroscopy with optical microscopy to collect rich spatio-spectral information about the studied sample. In the recent years it has become an important tool in pharmaceutical industry.
How Does Hyperspectral Raman Imaging works?
In a traditional hyperspectral imaging, a series of two-dimensional images is obtained from sample, offering rich spectral information from every pixel of the image. This is in contrast to traditional imaging techniques that assigns a discrete color (usually RGB) to each pixel. In Hyperspectral Raman Imaging the sample is excited with a pump light source and then Raman spectra is recorded for each pixel. This way Raman spectra of the sample is mapped spatially in the studied region.
RIMA™ Hyperspectral Raman Imaging System
Specifications |
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|---|---|
| Excitation Wavelength: | Around 532 nm, Around 638 nm |
| Multi-Wavelength Capability: | Custom |
| Spectral Range: | 190-4000cm^-1 |
| Detector: | CCD, CMOS |
| Spectral Resolution: | < 7 cm^-1 |
| Maximum Scanning Speed: | 250 µm²/min |
| Spatial Resolution: | sub-micron |
Features
Hyperspectral Raman Imaging System RIMA™ comes with a number of important features:
- Fast global mapping (non scanning)
- Megapixel images in minutes
- Stokes and anti-Stokes
- High spatial and spectral resolution
- Non-destructive analysis
- Complete system (source, microscope, camera, filter, software)
We currently offer the following models of RIMA™ Hyperspectral Raman Imaging System:
Model: RIMA 532 / RIMA 660
Excitation wavelengths: 532 nm, 660 nm
Spectral range: 190 - 4,000 cm⁻¹
Model: RIMA 785
Excitation wavelengths: 785 nm
Spectral range: 190 - 2,700 cm⁻¹
Applications
In recent years, hyperspectral Raman imaging has become a standard technique in pharmaceutical industry. That said, the utility of this imager has been proven in other applications as well:
- Fundamental characterization of 2D materials
- Quality control
- Map of: composition, defects, stress, constraint, etc.
For pricing, technical or any other questions please contact the supplier
- No registration required
- No markups, no fees
- Direct contact with supplier
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How to order?
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Ships from:
Canada
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Sold by:
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On FindLight:
since 2015
Frequently Asked Questions
Hyperspectral Raman imaging is an analytical technique that combines Raman spectroscopy with optical microscopy to collect rich spatio-spectral information about the studied sample. In Hyperspectral Raman Imaging, the sample is excited with a pump light source and then Raman spectra is recorded for each pixel. This way Raman spectra of the sample is mapped spatially in the studied region.
The RIMA™ Hyperspectral Raman Imaging System features fast global mapping, megapixel images in minutes, high spatial and spectral resolution, non-destructive analysis, and a complete system (source, microscope, camera, filter, software).
The RIMA™ Hyperspectral Raman Imaging System is a global hyperspectral Raman imager that provides rapid spectral and spatial characterization of advanced materials over large areas.
The RIMA™ Hyperspectral Raman Imaging System is used for fundamental characterization of 2D materials, quality control, and mapping of composition, defects, stress, and constraint.
The spectral range of the RIMA™ Hyperspectral Raman Imaging System is 190 - 4,000 cm⁻¹ for the RIMA 532 / RIMA 660 models and 190 - 2,700 cm⁻¹ for the RIMA 785 model.