Among the specialized branches of mass spectrometry, isotope ratio analysis stands as one of the most powerful tools for decoding natural processes. Using a mass spectrometer designed to measure the relative abundance of isotopes, scientists can trace environmental changes, date geological events, and track sources of pollution or biological materials.

Isotopes are atoms of the same element with different numbers of neutrons. Their ratios in a sample carry a unique signature of origin and transformation. For example, variations in carbon isotopes (¹²C and ¹³C) reveal photosynthetic pathways in plants, while oxygen isotopes in ice cores help reconstruct ancient climate patterns.

An isotope ratio mass spectrometer (IRMS) operates by ionizing a purified gas sample, typically CO₂, N₂, or SO₂, and separating isotopic ions in a magnetic field. Detectors measure the ratios with extraordinary precision — differences as small as 0.001% can be detected.

Applications range from archaeology to climate science. Radiocarbon dating relies…

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