Presentation Novel method for determination of 90Sr using Thermal Ionization Mass Spectrometry

Kumar Sahoo, Sarata  ,  Kavasi, Norbert  ,  Aono, Tatsuo  ,  Palacz, Zenon

2016-08-26
Description
Measurement of radioactive strontium, one of the most common and hazardous fission product after e.g. a reactor accident are carried out to determine the primary strontium isotope of interest, the long lived 90Sr (t1/2 =28.8 y). 90Sr has a long biological half-life (~18y) in the human body. Due to its chemical similarity to calcium, it accumulates in bones and irradiates the bone marrow, causing its high radio-toxicity. Therefore, to assess 90Sr is important in case of a nuclear disaster. The fission yield of stable 88Sr (˜3.5×10-2) isotope in thermal neutron fission is comparable with the radioactive 90Sr (˜5.8×10-2) isotope. Therefore, it is important to check if there is any variation of the stable strontium isotope ratio (88Sr/86Sr) in environmental samples after a nuclear accident.Thermal ionization mass spectrometry is the technique of choice because of its inherent high precision and accurate measurement of isotopic ratio. Typical abundance sensitivity for strontium isotope ratio measurement with conventional TIMS is about 10-7. By the use of special lense like WARP filter for TIMS, an upper limit of 1.0 x 10-10 was achieved. Recent developments in analytical techniques have resulted in use of TIMS as a substitute for  counting method of strontium. In our laboratory, a Phoenix X62 TIMS has been set up with nine Farday cup collectors as well as Daly ion counting system to measure minor isotopes e.g. 90Sr. The range of the tested 90Sr activity varied from 0.12 mBq to 660 mBq. Isotope ratios of 90Sr as well as stable Sr isotope ratios in a few contaminated soil samples with radiocaesium and some plants from Fukushima prefecture will be presented.
21st International Mass Spectrometry Conference (IMSC 2016)

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