Raman spectroscopy - advanced optical analysis technology

What is Raman spectroscopy?
Raman spectroscopy utilizes specific wavelengths of laser light which interact with molecules to cause scattering. A small amount of laser light will shift due to energy transfer (Raman shift). The back-scattered photons are collected and filtered by separation of Raman light. A CCD detector identifies a unique "fingerprint" of the chemical components and quantifies the amount of each, making Raman spectroscopy an excellent technique for accurate composition analysis.

• Rapid implementation User-friendly automation compatible software, a reliable partner with a long history of Raman expertise, and a vast global customer support network
• Optimized process efficiency Faster delivery of real-time, highly accurate measurement data along with streamlined lab-to-process scalability
• Increased safety Reliable, non-invasive measurement techniques that minimize human intervention while maximizing risk avoidance capabilities
• Enhanced product quality Easier compliance with industry regulations through increased process visibility and tighter control of critical quality parameters
• Lower costs
  Reduced maintenance, product waste, and cleaning burdens while increasing yields and plant availability

Fully scalable Raman systems
Endress+Hauser Raman systems harness the power of Raman spectroscopy to perform continuous, real-time chemical measurements in any environment without needing to extract, prepare, or destroy the native sample. With over 40 years of experience, the depth and breadth of our portfolio allow our customers to gain chemical insights to help streamline product development, provide analytical scalability, and ensure product quality through process automation.