Introduction: The ATR8100 series combines the advantages of both microscope and Raman spectrometer. The microscopic Raman detection platform makes it possible to "what you see is what you see". The visual and precise positioning of the Raman detection platform allows the observer to detect the Raman signals of different surface states on the sample and display the detected signals simultaneously on the computer. The micro-area shape of the location greatly facilitates Raman micro-area detection. The ATR8100 is equipped with an objective lens specially designed for the Raman system to make the laser spot close to the diffraction limit, and then the focus information is accurately and intuitively displayed on the computer through a 5 million camera. It overcomes the problem that the focal plane of the Raman signal collected in the ordinary Raman system is slightly higher or lower than the actual optimal focal plane, thereby improving the quality of the Raman spectrum. ATR8100 adopts unique non-optical switching moving parts (patent applied for), all optical parts are assembled in solid state, work is very stable, and realize the perfect solution to the loss of the camera imaging time path, and realize the camera imaging and Raman signal collection Separation, so as to get the best signal strength. At the same time, ATR8100 uses high-performance Raman optimized specifically for micro-Raman systems. Whether it is sensitivity, signal-to-noise ratio, stability, etc., it is the industry's leading level, providing a strong guarantee for Raman research Application fields of ATR8100 confocal Raman spectrometer: Nanoparticles and new materials; universities and research institutes; biological sciences; forensic medicine identification; materials science; medical immunoassay; agricultural and food identification; water pollution analysis; gem and inorganic mineral identification ; Environmental science Features: 1. Ultra-high sensitivity, sex to noise ratio>2000:1 2. True confocal, ensuring more accurate Raman images 3. Built-in Windows operating system computer, can work independently 4. Capacitive touch screen operation 5. Ultra-high stability 6. Imported optical devices, good product performance; 7. Quickly locate and quickly find the focus position 8. High-quality objective lens, micron-level light spot 9. 5 million cameras, clear and accurate images 10. Excitation wavelength: 532, 633, 785, 830, 1064nm optional 11. Equipped with high-performance spectrometer Technical parameter: Spectral resolution: 3-6 cm-1 (different models, different spectral ranges, slightly different) Spectral range: 250~2700, 200~3500, 200~4300 cm-1 (other wavelength ranges can be customized, as low as 50 cm-1) Spectral stability: σ/μ <0.5% (COT 8 hours) Temperature stability: Spectral shift ≤ 1 cm-1 (10~40 ℃) Signal to noise ratio: >2000:1 Detector: 2048 pixels Detection wavelength range: 200nm~1100nm Pixel size: 14 μm * 14 μm Detector dynamic range: 13000:1 Laser center wavelength: 785nm (±0.5nm) Microscope camera system: 5 million pixel industrial camera Focusing method: Conjugate focus Laser power: >350mW (software adjustable) Laser spot diameter: >1μm Laser stability: σ/μ <±0.2% Laser line width: 0.08 nm Communication mode: USB2.0 Moving range: 50 X 50 mm Moving resolution: 0.1μm Movement method: manual or electric Focus accuracy: ≤ ±0.2 μm Maximum stroke: 20 mm Focusing method: manual or electric
Introduction: The ATR8100 series combines the advantages of both microscope and Raman spectrometer. The microscopic Raman detection platform makes it possible to "what you see is what you see". The visual and precise positioning of the Raman detection platform allows the observer to detect the Raman signals of different surface states on the sample and display the detected signals simultaneously on the computer. The micro-area shape of the location greatly facilitates Raman micro-area detection. The ATR8100 is equipped with an objective lens specially designed for the Raman system to make the laser spot close to the diffraction limit, and then the focus information is accurately and intuitively displayed on the computer through a 5 million camera. It overcomes the problem that the focal plane of the Raman signal collected in the ordinary Raman system is slightly higher or lower than the actual optimal focal plane, thereby improving the quality of the Raman spectrum. ATR8100 adopts unique non-optical switching moving parts (patent applied for), all optical parts are assembled in solid state, work is very stable, and realize the perfect solution to the loss of the camera imaging time path, and realize the camera imaging and Raman signal collection Separation, so as to get the best signal strength. At the same time, ATR8100 uses high-performance Raman optimized specifically for micro-Raman systems. Whether it is sensitivity, signal-to-noise ratio, stability, etc., it is the industry's leading level, providing a strong guarantee for Raman research Application fields of ATR8100 confocal Raman spectrometer: Nanoparticles and new materials; universities and research institutes; biological sciences; forensic medicine identification; materials science; medical immunoassay; agricultural and food identification; water pollution analysis; gem and inorganic mineral identification ; Environmental science
