THz-Raman Spectroscopy Benchtop Module
Description
HORIBA’s new THz-Raman® Spectroscopy Modules extend the range of traditional Raman spectroscopy into the terahertz/low-frequency regime, exploring the same range of energy transitions at terahertz spectroscopy - without limiting the ability to measure the fingerprint region. This region reveals a new “Structural Fingerprint” to complement the traditional “Chemical Fingerprint” of Raman, enabling simultaneous analysis of both molecular structure and chemical composition in one instrument for advanced materials characterization.
THz-Raman Spectroscopy Benchtop Module
Specifications |
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| Excitation Wavelength: | 850 nm |
| Raman Shift Range: | 5-3000cm^-1 |
| Spectral Resolution: | 0.8 cm^-1 |
Features
Compact, patented1 optical design with integrated high power single frequency laser source
Interchangeable sample interface - vial/tablet holder, steerable open beam, or contact probe tip
Fiber coupled output enables easy interface to a wide range of spectrometers
Fast collection ofTHz-Raman® spectra from 5cm-1 to > 3000 cm- 1 (150 GHz to 90 THz)
Simultaneous Stokes and anti-Stokes signals improve SNR while providing inherent calibration reference
Can be added on to an existing Raman system or spectrometer, or incorporated into a complete turnkey system
Available at 532 nm, 785 nm, and 850 nm excitation wavelengths
Applications
Crystallization Studies and Reaction Monitoring
Trace detection and source attribution of explosives/hazmats/drugs
Structural studies of nano- and bio-materials, photovoltaics, and semiconductors
Forensics, archeology, mineralogy
For pricing, technical or any other questions please contact the supplier
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How to order?
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Ships from:
United States
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Sold by:
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On FindLight:
since 2016
Frequently Asked Questions
THz-Raman® Spectroscopy Module is a new technology that extends the range of traditional Raman spectroscopy into the terahertz/low-frequency regime, exploring the same range of energy transitions at terahertz spectroscopy.
THz-Raman® Spectroscopy Module reveals a new “Structural Fingerprint” to complement the traditional “Chemical Fingerprint” of Raman, enabling simultaneous analysis of both molecular structure and chemical composition in one instrument for advanced materials characterization.
THz-Raman® Spectroscopy Module is available at 532 nm, 785 nm, and 850 nm excitation wavelengths.
THz-Raman® Spectroscopy Module has various applications such as Crystallization Studies and Reaction Monitoring, Trace detection and source attribution of explosives/hazmats/drugs, Structural studies of nano- and bio-materials, photovoltaics, and semiconductors, Forensics, archeology, mineralogy.
Yes, THz-Raman® Spectroscopy Module can be added on to an existing Raman system or spectrometer, or incorporated into a complete turnkey system.