Raman spectroscopy works by shining light through a sample and analyzing the light that is scattered by the sample. The scattered light is shifted in frequency by a characteristic amount that depends on the molecular vibrations of the sample. The pattern of scattered light can be used to identify the chemical composition of a sample. In process spectroscopy, Raman spectroscopy is used to analyze solid and liquid samples, such as the composition of solids in a chemical process.
In Process Spectroscopy, the spectroscopic techniques are integrated into the process, allowing for real-time analysis of the process. The spectroscopic instrumentation is designed to be robust and to withstand the harsh conditions of the process environment, such as high temperatures and corrosive atmospheres. The instrumentation is also designed to be easy to use, so that process engineers can quickly and easily obtain the information they need about the process.
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