LabRAM Odyssey
Confocal Raman & High-Resolution Spectrometer
The LabRAM Odyssey is a fully automated confocal Raman microscope engineered for ultra-high spectral and spatial resolution across 2D and 3D imaging. With an expansive wavelength capability from deep UV to NIR, advanced confocal optics, and effortless automation, it caters to sophisticated applications such as biomolecular research, materials characterization, and semiconductors.
Why Choose LabRAM Odyssey
Superior Resolution – Achieves diffraction-limited imaging and exceptional spectral clarity.
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Broad Wavelength Range – Spans from deep UV to NIR without needing optical changes.
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High Automation – Features VRM calibration, auto laser switching, and automated objective turret for seamless use.
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Fast Imaging – Includes SWIFT™ and DuoScan™ technologies for rapid confocal Raman mapping.
Key Advantages of LabRAM Odyssey
Diffraction-Limited Confocal Resolution
Provides unmatched detail for analyzing crystallinity, strain, and molecular structure.
Seamless UV to NIR Capability
Allows diverse Raman, resonance Raman, and photoluminescence measurements without reconfiguring optics.
True Plug-and-Play Automation
Ensures effortless calibration, alignment, and operation across large-scale and detailed studies.
Ultra-Fast Raman Mapping
Delivers rapid, high-throughput Raman imaging—from macro surveys to fine microscale mapping.
Applications of LabRAM Odyssey
Wafer Inspection
Whole-wafer Raman mapping for defect, stress, and uniformity analysis.
Crystallinity & Phase Analysis
Determining polymorphism and crystal quality in materials.
Thin-Film Characterization
Measuring composition, thickness, and uniformity in deposited layers.
Technical Specifications of LabRAM Odyssey
| General Specifications | ||
| Wavelength range | Deep UV to VIS-NIR | Standard 200 nm - 2200 nm (achromatic, no change of optics required) |
| Imaging spectrometer | Czerny-Turner configuration | Focal length: 800 mm |
| Lasers | Up to 6 motorized | User selectable: 266 nm, 325 nm, 355 nm, 405 nm, 458 nm, 473 nm, 532 nm, 633 nm, 660 nm, 785 nm, 1064 nm Other wavelengths possible on request. |
| Laser filters | Unlimited | Various range of filters (Dielectric, Notch, ULF…) to cover all the applications. |
| Number of gratings | Unlimited | |
| Spectral resolution FWHM | @ 244 nm excitation wavelength ≤ 1.5 cm-1 with 3600 gr/mm @ 532 nm excitation wavelength ≤ 0.6 cm-1 with 1800 gr/mm and ≤ 0.3 cm-1 with 3000 gr/mm @ 633 nm excitation wavelength ≤ 0.4 cm-1 with 1800 gr/mm and ≤ 0.2 cm-1 with 2400 gr/mm @ 785 nm excitation wavelength ≤ 0.2 cm-1 with 1800 gr/mm | |
| Ultra Low Frequency (ULF) | < 10 cm-1 measured on sulfur | Based on Volume Bragg Filters (VBG). Available for 473, 532, 633 and 785 nm laser excitations. |
| Automated internal calibration functions | Built-in automatic AutoCAL & ICS methods, VRM & VRM OA as standard | Automated calibration of spectral intensity and range calibration. VRM ensures high spatial accuracy for Raman and microscopy mapping, VRM OA allows change of magnification without loss of spatial accuracy. |
| Fast Raman imaging | Patented SWIFT™ functions | Compatible with all objectives and all lasers. 3 available in standard: SWIFT™ imaging, repetitive imaging and XR high spectral resolution. SWIFT™ XS high speed imaging requires an optional EMCCD detector to be used. |
| AFM / SEM coupling | Yes | Compatible with NanoRaman module and with patented nanoGPS™ navYX for correlative microscopy measurements. |
| Dimensions W x H x D (mm) | 1300 x 1194 x 473 | The depth depends on the XY stage and the laser bench (optional). This value is for the 100 x 100 mm stage and with the laser bench-Class IIIb system - without optional CDRH. |
| Weight | ~100 kg | Depends on configuration. |
| Safety | Class IIIb | Optional CDRH Laser safety class 1. |
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