Litcius/Paper detail

Non-natural ruthenium isotope ratios of the undeclared 2017 atmospheric release consistent with civilian nuclear activities

Timo Hopp, Dorian Zok, T. Kleine, Georg Steinhäuser

2020Nature Communications24 citationsDOIOpen Access PDF

Abstract

Ru in the Eurasian region, and whether it derives from a civilian or military source, is of major importance for society and future improvements in nuclear safety. Until now, the released nuclear material has merely been studied by analyzing short-lived radioisotopes. Here, we report precise measurements of the stable isotopic composition of ruthenium captured in air filters before, during, and after the nuclear release, and find that the ruthenium collected during the period of the 2017 nuclear release has a non-natural isotopic composition. By comparing our results with ruthenium isotopic compositions of spent nuclear fuels, we show that the release is consistent with the isotopic fingerprints of a civilian Russian water-water energetic reactor (VVER) fuel at the end of its lifetime, and is not related to the production of plutonium for nuclear weapons.

Topics & Concepts

RutheniumIsotopeSpent nuclear fuelNuclear weaponEnvironmental scienceNuclear materialNuclear reactorPlutoniumStable isotope ratioRadioactive wasteRadiochemistryChemistryNuclear engineeringNuclear physicsNuclear chemistryCatalysisPhysicsEngineeringBiochemistryRadioactive contamination and transferRadioactive element chemistry and processingIsotope Analysis in Ecology