Endress+Hauser Raman non-contact optics provide a safe and versatile solution for Raman spectroscopy measurements without physically touching the sample. Here’s a breakdown of their key features:
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Non-Contact Measurement: Utilizes laser light to analyze the sample remotely, eliminating the need for direct contact. This is ideal for:
- Sensitive samples: Protects delicate materials or those prone to contamination.
- Hazardous environments: Ensures operator safety when analyzing potentially harmful substances.
- Samples through barriers: Enables analysis through sight glasses or transparent packaging.
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Range of Working Distances: Available in various working distances, allowing for adaptation to diverse measurement setups and sample geometries.
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Highly Versatile: Suitable for analyzing a wide range of materials, including:
- Solids: Powders, pellets, films, tablets
- Liquids: In open containers or through transparent vessels
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Seamless Integration: Designed to work with Endress+Hauser Raman probes, particularly the Rxn-10 model, for a complete Raman spectroscopy system.
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Accurate Measurement: Delivers high-quality Raman spectra even with non-contact analysis, ensuring reliable and informative results.
Benefits:
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Improved Safety: Eliminates the risk of damaging sensitive samples or operator exposure to hazardous materials.
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Flexible Analysis: The range of working distances and compatibility with various samples broadens the scope of Raman analysis applications.
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Simplified Measurement Setup: Non-contact measurement simplifies probe positioning and reduces setup complexity.
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Reduced Sample Contamination: Minimizes the risk of contamination from probe contact, especially important for sensitive materials or pharmaceutical applications.
Overall, Endress+Hauser Raman non-contact optics are a valuable tool for researchers and industry professionals seeking a safe, versatile, and user-friendly approach to Raman spectroscopy. They offer a combination of non-contact analysis, diverse working distances, and compatibility with various samples, making them suitable for a wide range of Raman spectroscopy applications.
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