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Key Features:
• State-of-the-art multicollector ICP-MS for ultra-high-precision isotope ratio measurements
• Simultaneous multi-collector detection with configurable Faraday cups and ion counters
• Enhanced stability and sensitivity for long-term isotope ratio reproducibility
• Low-background ion optics for sub-ppm precision in isotope ratio determinations
• High flexibility with advanced detector configurations for radiogenic, stable, and non-traditional isotopes
• Robust plasma design ensuring reliable analysis of challenging sample matrices
• Integrated Qtegra ISDS software platform with full data integrity and compliance tools -
Applications:
• Geochemistry and geochronology for radiogenic isotope systems (Sr, Nd, Pb, Hf, U-Th series)
• Nuclear fuel cycle monitoring and nuclear forensics through isotope ratio determination
• Environmental science for tracing pollutants and isotopic fingerprinting
• Climate research using isotopic signatures in oceanography and ice cores
• Archeology and provenance studies for materials authentication
• Stable isotope analysis in biological and ecological studies -
Specifications:
Specification Details ICP-MS Platform Thermo Scientific Neoma MC-ICP-MS MS System Type Multicollector ICP-MS Ionization Source Inductively Coupled Plasma (ICP) Detector System Multiple Faraday cups and ion counters with dynamic range extension Sensitivity High-sensitivity ion optics with sub-ppm isotope precision Background Noise Ultra-low background ion path Isotope Ratio Precision <10 ppm (parts per million) for major isotope systems Dynamic Range Wide dynamic range for both major and trace isotopes Autosampler Compatible with Thermo Scientific and third-party autosamplers Interface High-stability plasma interface cones Software Thermo Scientific Qtegra ISDS with dedicated isotope ratio tools Compliance 21 CFR Part 11 ready