Raman Spectrometer
Availability: In Stock
Raman Spectrometer
Product Code: ATRH8800
application
- ATRH8800 adds a microscopic hyperspectral imager to the confocal Raman microscope. The instrument is an advanced device that integrates a hyperspectral imaging microscope, an optical microscope and a high-resolution confocal Raman microscope. Hyperspectral imaging microscopy and confocal micro-Raman spectrometer can be used to characterize and analyze the surface morphology, reflection hyperspectral imaging and Raman spectrum performance of nanomaterials respectively, thereby providing more comprehensive information on the sample and providing sharp Microscopic image. Users can improve work efficiency, spend more time on data collection and analysis, and truly realize in-situ detection and analysis of samples.
- ATRH8800 is equipped with an objective lens specially designed for the Raman system, which makes the laser spot close to the diffraction limit, and then displays the focus information accurately and intuitively on the computer through a 5-megapixel camera. It overcomes the problem in ordinary Raman systems that the focal plane for collecting Raman signals is slightly higher or slightly lower than the actual optimal focal plane, thereby improving the quality of the Raman spectrum.
- At the same time, ATRH8800 uses high-performance Raman specially optimized for micro-Raman systems. It is industry-leading in terms of sensitivity, signal-to-noise ratio, stability, etc., providing a strong guarantee for Raman research.
Confocal Raman Microscope | |
Excitation Wavelength | Select up to four from 266、325、532、638、785、1064nm |
Imaging Speed | <60s |
Spectral Range | 390- 1000nm |
Detector | 1) Deep cooling area array CCD: 2000X256 pixels 2) Deep cooling high sensitivity EMCCD: 1600X200 pixels 3) Deep cooling area array InGaAs CCD: 512X1 pixels |
Spot Diameter | >1μm |
Working Humidity | constant humidity (50±10%) |
Working Temperature | Constant temperature (25±2℃) |
Interface | USB3.0 |
Microscopic Illumination | High brightness and long life white LED |
Focus Method | conjugate focus |
Laser Stability | σ/μ <±0.2% |
Laser Power | 266nm:30 mW 325nm:30mW 532nm: 100mW 633nm:80mW 638nm:80mW 785nm:350mW 1064nm:500mW |
Voltage | 100~240VAC |
Peak Power | <500W |
Dimensions | ATRH8800-FL350:905(L)×58.3(W)×643(H) ATRH8800-FL510: 1009(L)×58.3(W)×643(H) ATRH8800-FL810: 1520(L)×68.3(W)×643(H) |
Weights | ATRH8800-FL350:59 Kg ATRH8800-FL510:63 Kg ATRH8800-FL810:78 Kg |
- Microscopic hyperspectral imaging, confocal micro-Raman spectroscopy, microscopic imaging;
- Micro-area positioning device, laser spot alignment and adjustment
- High power optical positioning system
- Automatic Raman imaging experiment, automatic focusing, automatic scanning;
- Wide-band range hyperspectral imaging (390-1000nm);
- Automated hyperspectral imaging experiment;
- SNR Ratio >6000:1
- Unique software controls switching light path
- Quickly locate focus position
- High-quality objective lens5 million cameras
- Excitation wavelength: 532, 633, 785, 830, 1064nm optional
- USB2.0
- Nanoparticles and new materials
- Universities and research institutes
- Biology
- Forensic Medicine Identification
- material science
- Medical Immunoassay
- Agriculture and food identification
- water pollution analysis
- Gem and inorganic mineral identification