PR1064 refrigerated Raman spectrometer with high signal-to-noise ratio Introduction: PR1064 is a portable Raman spectrometer with high sensitivity and high signal-to-noise ratio cooling. Compared with 785nm and 532nm Raman spectrometers, 1064nm is less destructive to biological samples such as tissues, avoids the fluorescence emission area of glass, biological tissues and many other substances, and has the advantage of low fluorescence background for many tested substances. 1064nm has better penetrability than 532nm and 785nm in the visible segment, and can penetrate brown glass bottles, white plastic packaging, paper and other packaging materials. Features: 1. High sensitivity and signal-to-noise ratio, 1S can obtain high-quality signals with a signal-to-noise ratio of more than 300:1 for many substances; 2. Wide integration time: The integration time can be set from 1mS60S; 3. High stability: Peak fluctuation RMS<1% @2hrs; 4. Good penetration: can penetrate brown glass, white plastic, wrapping paper; 5. High resolution: Compared with similar products, the optimized light path design and 512pixels can provide a resolution of 15-18cm-1. 6. Built-in operating system, spectrum acquisition software and analysis software Technical parameter: Size: 290*187*68mm Weight: 4.6kg Spectral range: 100-3000cm-1 Spectral resolution: 18cm-1 Raman displacement accuracy: 3cm-1 Integration time: 1ms-60S Power consumption: 5V3A Working temperature: 0-40℃ Working humidity: 10-85%
Introduction: PR1064 is a portable Raman spectrometer with high sensitivity and high signal-to-noise ratio cooling. Compared with 785nm and 532nm Raman spectrometers, 1064nm is less destructive to biological samples such as tissues, avoids the fluorescence emission area of glass, biological tissues and many other substances, and has the advantage of low fluorescence background for many tested substances. 1064nm has better penetrability than 532nm and 785nm in the visible segment, and can penetrate brown glass bottles, white plastic packaging, paper and other packaging materials.
