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An improvement of isochronous mass spectrometry: Velocity measurements using two time-of-flight detectors

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arxiv 1601.07048 v2 pith:YPBKJ25T submitted 2016-01-25 physics.ins-det nucl-ex

An improvement of isochronous mass spectrometry: Velocity measurements using two time-of-flight detectors

classification physics.ins-det nucl-ex
keywords ionsmassmomentumdetectorssecondaryspreaddoubleisochronous
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Isochronous mass spectrometry (IMS) in storage rings is a powerful tool for mass measurements of exotic nuclei with very short half-lives down to several tens of microseconds, using a multicomponent secondary beam separated in-flight without cooling. However, the inevitable momentum spread of secondary ions limits the precision of nuclear masses determined by using IMS. Therefore, the momentum measurement in addition to the revolution period of stored ions is crucial to reduce the influence of the momentum spread on the standard deviation of the revolution period, which would lead to a much improved mass resolving power of IMS. One of the proposals to upgrade IMS is that the velocity of secondary ions could be directly measured by using two time-of-flight (double TOF) detectors installed in a straight section of a storage ring. In this paper, we outline the principle of IMS with double TOF detectors and the method to correct the momentum spread of stored ions.

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