In Raman microscopy, also called confocal Raman microscopy, an optical microscope and a Raman spectrometer are combined into one instrument in order to provide high resolution images of small samples. This high resolution imaging has applications that include materials science, earth science, cell biology, medicine, cosmetics, and art analysis.
A Raman microscope consists of a basic optical microscope, a Raman spectrometer, a laser, a light source, and a detector such as a CCD camera. The optical microscope uses light to magnify and identify samples while the Raman spectrometer scatters light and measures the excitation vibration. When selecting a microscope, it is important to consider the qualities of each of the microscope's components and their optimal configuration for a particular application.
Find, compare, and request a quote for Raman and confocal Raman microscopes across leading suppliers at Labcompare; including access to product citations, related published figures, and first-hand reviews from our scientific community.
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| Company | Bruker Optics | Bruker Optics |
| Item | RAMANtouch Confocal Laser Scanning Raman Microscope | HYPERION Series Microscopes |
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| Catalog Number | | BOPT HYPERION 1000 / HYPERION 2000 / HYPERION 3000 |
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| Description | Inquire | The HYPERION II is an innovation force in infrared microscopy. It provides IR imaging down to the diffraction limit and sets the benchmark in ATR microscopy. It combines FT-IR and Infrared Laser Imaging (ILIM) microscopy for the first time ever in a single device, offering all three measurement The HYPERION II is an innovation force in infrared microscopy. It provides IR imaging down to the diffraction limit and sets the benchmark in ATR microscopy. It combines FT-IR and Infrared Laser Imaging (ILIM) microscopy for the first time ever in a single device, offering all three measurement modes: transmission, reflection, and ATR.
Features:
- Selection of detectors for µ-FT-IR: Broad-, mid, narrow-band LN2-MCTs, thermoelectrically cooled (TE) MCT.
- Focal-plane array detector for infrared imaging (64 x 64 or 128 x 128 pixel).
- Optional QCL implementation by Laser Infrared Imaging Module (ILIM, laser class 1)
- Objective lens selection: 3.5x/15x/36x IR, 20x ATR, 15x GIR, 4x/40x VIS.
- Spectral range extension – from Near-Infrared (NIR) to Far-Infrared (FIR)
- Selection of apertures: manual knife-edge, automated knife-edge aperture wheel. Metal apertures for NIR
- Selection of accessories and sample stages: macro IR imaging accessory, cooling/heating stage, sample compartment, etc.
- Selection of visual/optical tools: Darkfield illumination, Fluorescence illumination, VIS polarizers, IR polarizers, etc.
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| Measurement Mode(s) | Inquire | Inquire |
| Focal Length | Inquire | Inquire |
| Detector(s) | Inquire | Inquire |
| Laser Sources | Inquire | Inquire |
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