Verifying the accuracy of the TITAN Penning-trap mass spectrometer

M. Brodeur; V.L. Ryjkov; T. Brunner; S. Ettenauer; A. T. Gallant; V.; V. Simon; M. J. Smith; A. Lapierre; R. Ringle; P. Delheij; M. Good; D. Lunney; and J. Dilling

arXiv:1110.3003·physics.ins-det·May 30, 2015

Verifying the accuracy of the TITAN Penning-trap mass spectrometer

M. Brodeur, V.L. Ryjkov, T. Brunner, S. Ettenauer, A. T. Gallant, V., V. Simon, M. J. Smith, A. Lapierre, R. Ringle, P. Delheij, M. Good, D. Lunney, and J. Dilling

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TL;DR

This paper presents a detailed characterization and verification of the TITAN Penning-trap mass spectrometer, demonstrating its high-precision measurement capabilities in the sub-ppb accuracy range for radioactive ions.

Contribution

It introduces a new compensation method for the TITAN Penning trap and verifies its performance at sub-ppb accuracy levels, advancing high-precision mass spectrometry techniques.

Findings

01

Successful characterization of the TITAN Penning trap

02

Demonstration of sub-ppb measurement accuracy

03

Validation of the new compensation method

Abstract

TITAN (TRIUMF's Ion Traps for Atomic and Nuclear science) is an online facility designed to carry out high-precision mass measurements on singly and highly charged radioactive ions. The TITAN Penning trap has been built and optimized in order to perform such measurements with an accuracy in the sub ppb-range. A detailed characterization of the TITAN Penning trap is presented and a new compensation method is derived and demonstrated, verifying the performance in the range of sub-ppb.

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