Nina Kneip scite author profile

Resonance ionization mass spectroscopy has proven to be a very efficient and selective method for the spatially resolved ultratrace determination of actinide contaminations, and the analysis of specific element and isotopic distributions on surfaces and environment particles. We report on the identification of highly element-selective optical excitation schemes identified for this purpose, with a particular focus on the precise determination of the isobaric ratios of 235U to 239Pu as well as 243Am to 241Pu. The chosen two-step ionization schemes were characterized with respect to their element selectivity on synthetic multi-element actinide mixtures, with an element ratio Pu : Am : U of 1 : 10 : 104, a composition which is typical, e.g., for spent nuclear reactor fuels.

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Actinide imaging in environmental hot particles from Chernobyl by rapid spatially resolved resonant laser secondary neutral mass spectrometry

Raiwa

Büchner

Kneip

et al. 2022

Spectrochimica Acta Part B: Atomic Spectroscopy

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New horizons in microparticle forensics: Actinide imaging and detection of ²³⁸ Pu and ^242m Am in hot particles

et al. 2021

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Recent developments in resonance ionization mass spectrometry for ultra-trace analysis of actinide elements

Raeder

Kneip

Reich

et al. 2019

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Resonance ionization mass spectrometry is an efficient tool to detect minute amounts of long-lived radio-isotopes in environmental samples. Applying resonant excitation and ionization with pulsed laser radiation within a hot cavity atomizer enables the sensitive detection and precise quantification of long-lived actinide isotopes. Due to the inherently element selective ionization process, this method ensures ultimate suppression of contaminations from other elements and molecules. The characterization of in-source resonance ionization of the actinide elements U, Th, Np, and Am using a compact quadrupole mass spectrometer (QMS) setup are discussed.

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Nina Kneip

Detection of the Lowest-Lying Odd-Parity Atomic Levels in Actinium

Highly selective two-step laser ionization schemes for the analysis of actinide mixtures

Actinide imaging in environmental hot particles from Chernobyl by rapid spatially resolved resonant laser secondary neutral mass spectrometry

New horizons in microparticle forensics: Actinide imaging and detection of ²³⁸ Pu and ^242m Am in hot particles

Recent developments in resonance ionization mass spectrometry for ultra-trace analysis of actinide elements

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About

Nina Kneip

Detection of the Lowest-Lying Odd-Parity Atomic Levels in Actinium

Highly selective two-step laser ionization schemes for the analysis of actinide mixtures

Actinide imaging in environmental hot particles from Chernobyl by rapid spatially resolved resonant laser secondary neutral mass spectrometry

New horizons in microparticle forensics: Actinide imaging and detection of 238 Pu and 242m Am in hot particles

Recent developments in resonance ionization mass spectrometry for ultra-trace analysis of actinide elements

Contact Info

Product

Resources

About

New horizons in microparticle forensics: Actinide imaging and detection of ²³⁸ Pu and ^242m Am in hot particles