Introduction: The ATR8300 series combines the advantages of both a microscope and a Raman spectrometer. The micro-Raman detection platform makes it possible to “see what you see”, and the visualized precise positioning of the Raman detection platform allows the observer to detect Raman signals on different surface states on the sample and simultaneously display them on a computer. The micro-domain morphology of the location greatly facilitates the Raman micro-area detection. The ATR8300 high-profile version can be fully automatic, fully automatic, one-button operation, batch test, uniformity scan, etc., without waiting, and can obtain high-reliability scanning imaging Raman data; The ATR8300 is equipped with an objective lens designed specifically for the Raman system, so that the laser spot is close to the diffraction limit, and the focus information is accurately and intuitively displayed on the computer through a 3 million camera. It overcomes the problem that the focal plane for collecting Raman signals in the ordinary Raman system is slightly higher or lower than the actual optimal focal plane, thereby improving the Raman spectral quality. The ATR8300 has no optical path switching moving parts. All optical components are solid-state assembled and work very stable. The instrument perfectly solves the loss of optical path during camera imaging, and achieves the separation of camera imaging and Raman signal collection. Signal strength. At the same time, the ATR8300 uses a high-performance Raman optimized for the micro Raman system. It is the industry leading level in terms of sensitivity, signal-to-noise ratio and stability, providing a strong guarantee for Raman research. Features: 1. Fully automatic Raman experiment, auto focus, automatic scanning; 2. Ultra-high sensitivity, noise-to-noise ratio >6000:1 3. True focus, ensuring more accurate Raman images 4. Ultra high spatial resolution 5. Unique software control switch light path 6. High stability 7. Imported optical components, good product performance; 8. Quickly locate and quickly find the focus position 9. High quality objective lens, spot micron level 10. 3 million cameras with clear and precise images 11. Excitation wavelength: 532, 633, 785, 830, 1064 nm optional 12. Equipped with high performance spectrometer 13.USB2.0 interface directly connected to the computer Applications Nanoparticles and new materials Research institute research Biology Forensic identification material science Medical immunoassay Agriculture and food identification Water pollution analysis
Introduction: The ATR8300 series combines the advantages of both a microscope and a Raman spectrometer. The micro-Raman detection platform makes it possible to “see what you see”, and the visualized precise positioning of the Raman detection platform allows the observer to detect Raman signals on different surface states on the sample and simultaneously display them on a computer. The micro-domain morphology of the location greatly facilitates the Raman micro-area detection. The ATR8300 high-profile version can be fully automatic, fully automatic, one-button operation, batch test, uniformity scan, etc., without waiting, and can obtain high-reliability scanning imaging Raman data; The ATR8300 is equipped with an objective lens designed specifically for the Raman system, so that the laser spot is close to the diffraction limit, and the focus information is accurately and intuitively displayed on the computer through a 3 million camera. It overcomes the problem that the focal plane for collecting Raman signals in the ordinary Raman system is slightly higher or lower than the actual optimal focal plane, thereby improving the Raman spectral quality. The ATR8300 has no optical path switching moving parts. All optical components are solid-state assembled and work very stable. The instrument perfectly solves the loss of optical path during camera imaging, and achieves the separation of camera imaging and Raman signal collection. Signal strength. At the same time, the ATR8300 uses a high-performance Raman optimized for the micro Raman system. It is the industry leading level in terms of sensitivity, signal-to-noise ratio and stability, providing a strong guarantee for Raman research.
