Ideal tool for fundamental research and advanced application of chemical analysis using Raman spectroscopy.
- double subtractive & triple additive configurations;
- direct single spectrometer;
- high stray light rejection.
The T64000 system is designed to provide a versatile platform for Raman analysis. It has an integrated triple spectrometer design for unprecedented optical stability. The instrument incorporates the proven technology of the confocal LabRAM Raman microprobe. The mechanical coupling is rigid and stable. The optical coupling is efficient and throughput is limited only by theoretical considerations.
Holographic notch filter technology provides a very good solution to laser rejection for visible wavelengths in many applications.
However, there are acknowledged limitations to the use of these filters for work close in to the laser line. Even with specially developed low frequency accessories with many difficult samples it is still often impossible to obtain reliable data at 10, 20 or
30 cm-1.
In using the double subtractive configuration of the T64000, it is possible to obtain spectral information very close in to the laser line. The subtractive mode is ideal for studying such detail as LA modes in polymer systems and crystal lattice modes.
Ultra high resolution
With the use of the ultra-high resolution triple additive configuration of the T64000 triple system, it is possible to very accurately study the position of Raman bands. This is of particular importance for the measurements of stress in semiconductor materials such as GaN, SiC and diamond where stress induced shifts in the order of 0,1 cm-1 are often studied. The high resolution also offers the level of accuracy required for the authentication and certification of materials for Raman standards.
Single spectrometer technology
With the final mode of operation, the direct spectrograph entrance, the system can be used with holographic notch filter technology and as a more conventional single spectrometer based system. The high throughput of the large optical components means that it is then ideal for Raman mapping and even remote probe forms of analysis.
UV Raman Spectroscopy
The T64000 has many benefits for deep UV Raman measurements.
The list of applications to which the T64000 can be applied is impressive including, thin films, solid state devices, biological chemistry and techniques such as UV, resonance Raman, PL and laser fluorescence.
Parameters | Value | ||
Focal length |
640 mm, all stages | ||
Aperture |
f/7,5 | ||
Dispersion, additive triple |
0,23 nm/mm | ||
Dispersion, single (direct or subtractive double) |
0,7 nm/mm | ||
Gratings |
76 x 76 mm2 | ||
Drive mechanism |
Sine bar | ||
Step Size |
0,00066 nm | ||
Mechanical range |
0 to 1000 nm (and above) | ||
Slits: | |||
- subtractive intermediate |
0 to 2 mm wide | ||
- spectrograph entrance |
0 to 50 mm wide | ||
Spectrograph port |
0 to 25 mm wide |
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