The RHL1064 Raman Laser is a tunable laser source with a center wavelength of 1064nm and adjustable output power from 0 to 500mW. Based on external cavity grating technology, it is designed to provide narrow linewidth, excellent wavelength stability, and power stability required for Raman spectroscopy applications. This laser module is ideal for precise and stable Raman spectral measurements.
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Specification
Name Software-Controlled Laser Manual-Controlled Laser Appearance 
Model RHL1064-50US RHL1064-50UF RHL1064-50HS RHL1064-50HF Output interface SMA FC SMA FC Dimensions 73×73×46mm 191×149×60 mm Weight 356g 2kg Supply voltage 5V/4A 12V/2A Central wavelength 1064 ±0.5nm Spectral linewidth <0.1 nm Laser power 0~500mW (adjustable) Power stability <2% P-P (2hrs) Dark noise <1% RMS @100 ms Wavelength stability <0.1 nm @0–40℃ Lifetime 10,000 hrs Operating temperature 0~40℃ Operating humidity 5~80%
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Dimensional drawing
RHL1064 Software-Controlled Laser
RHL1064 Manual-Controlled Laser
RHL1064 Manual-Controlled Laser
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Stability test
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Application
Medical Diagnostics
The 1064nm Raman laser offers non-contact, non-destructive, and rapid detection with excellent tissue penetration and a low fluorescence background, making it ideal for in vivo Raman spectroscopy of biological tissues. It is widely applied in disease diagnosis, pharmaceutical research, and therapeutic evaluation.
The 1064nm Raman laser offers non-contact, non-destructive, and rapid detection with excellent tissue penetration and a low fluorescence background, making it ideal for in vivo Raman spectroscopy of biological tissues. It is widely applied in disease diagnosis, pharmaceutical research, and therapeutic evaluation.
Raman Spectrum for Skin Disease Screening
Pharmaceutical Industry
With its high spectral resolution, strong fluorescence suppression, and no need for sample preparation, the 1064nm Raman laser provides powerful support for quality control and research & development in pharmaceuticals. It is particularly suitable for raw material screening, process monitoring, component analysis, and polymorph identification, improving both the efficiency and accuracy of pharmaceutical development.
With its high spectral resolution, strong fluorescence suppression, and no need for sample preparation, the 1064nm Raman laser provides powerful support for quality control and research & development in pharmaceuticals. It is particularly suitable for raw material screening, process monitoring, component analysis, and polymorph identification, improving both the efficiency and accuracy of pharmaceutical development.
Raman Spectra of α and β Polymorphs of Glutamic Acid