M
Mikael Moring
Researcher at Radiation and Nuclear Safety Authority
Publications - 20
Citations - 128
Mikael Moring is an academic researcher from Radiation and Nuclear Safety Authority. The author has contributed to research in topics: Spent nuclear fuel & Neutron. The author has an hindex of 6, co-authored 18 publications receiving 118 citations.
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Journal ArticleDOI
Uranium and plutonium containing particles in a sea sediment sample from Thule, Greenland
TL;DR: In this article, the presence of radioactive materials and probably originating from US nuclear weapons were identified in sea sediment samples collected from Thule, Greenland, in 1997 by combining gamma-spectrometry and autoradiography.
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Linssi : Database for gamma-ray spectrometry
Pertti Aarnio,Jarmo Ala-Heikkilä,Arto Isolankila,Antero Kuusi,Mikael Moring,M. Nikkinen,Teemu Siiskonen,Harri Toivonen,Kurt Ungar,Weihua Zhang +9 more
TL;DR: With Linssi, measurement setups with detectors, shields, attenuators and source geometries can be defined and full control of calibrations, their histories and tracing of each calibration point back to its corresponding analysis and calibration measurement is supported.
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Direct alpha spectrometry for characterising hot particle properties
TL;DR: In this article, the use of high-resolution direct alpha spectrometry with the aid of Monte Carlo simulations was demonstrated in order to determine the properties of a nuclear bomb particle from the Thule accident.
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Automation of analysis of airborne radionuclides observed in Canadian CTBT radiological monitoring networks using LINSSI
Kurt Ungar,Weihua Zhang,Pertti Aarnio,Jarmo Ala-Heikkilä,Harri Toivonen,Teemu Siiskonen,Arto Isolankila,Antero Kuusi,Mikael Moring,M. Nikkinen +9 more
TL;DR: This paper has investigated the performance of the automated analysis pipeline for Canadian CTBT radiological monitoring networks in its capabilities and reliabilities of rapid small peak search, nuclide identification, and radionuclide activity concentration evaluation.
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140 La/ 140 Ba ratio dating of a nuclear release
TL;DR: Based on the activity ratios of the 140Xe progenies 140Ba and 140La in a sudden release scenario, the analysis in this paper provides an estimate of 12 May 16:00 (UTC) for the release date of the nuclear debris in the form of 140 Xe.