The Auger Radioisotope Microscope: an instrument for characterization of Auger electron multiplicities and energy distributions

The Auger Radioisotope Microscope: an instrument for characterization of Auger electron multiplicities and energy distributions

We describe a new instrument, the Argonne Auger Radioisotope Microscope (ARM), capable of characterizing the Auger electron (AE) emission of radionuclides, including candidates relevant in nuclear medicine. Our approach relies on event-by-event ion–electron coincidence, time-of-flight, and spatial r...

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Bibliographic Details
Main Authors: Patrick R Stollenwerk, Stephen H Southworth, Francesco Granato, Amy Renne, Brahim Mustapha, Kevin G Bailey, Peter Mueller, Jerry Nolen, Thomas P O’Connor, Junqi Xie, Linda Young, Matthew R Dietrich
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:New Journal of Physics
Subjects:
Auger spectroscopy
nuclear medicine
Auger emitters
Auger multiplicity
radioactive cryogenic buffer gas beam source
Online Access:https://doi.org/10.1088/1367-2630/add6cd
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Summary:We describe a new instrument, the Argonne Auger Radioisotope Microscope (ARM), capable of characterizing the Auger electron (AE) emission of radionuclides, including candidates relevant in nuclear medicine. Our approach relies on event-by-event ion–electron coincidence, time-of-flight, and spatial readout measurement to determine correlated electron multiplicity and energy distributions of Auger decays. We present a proof-of-principle measurement with the ARM using x-ray photoionization of stable krypton beyond the K -edge and identify a bifurcation in the electron multiplicity distribution depending on the emission of K-LX electrons. Extension of the ARM to the characterization of radioactive sources of AE emissions is enabled by the combination of two recent developments: (1) cryogenic buffer gas beam technology to introduce Auger emitters into the detection region with well-defined initial conditions, and (2) large-area micro-channel plate detectors with multi-hit detection capabilities to simultaneously detect multiple electrons emitted in a single decay.
ISSN:1367-2630

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