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Accurate correction of magnetic field instabilities for high-resolution isochronous mass measurements in storage rings

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arxiv 1407.3459 v1 pith:EZS6JAQG submitted 2014-07-13 nucl-ex

Accurate correction of magnetic field instabilities for high-resolution isochronous mass measurements in storage rings

classification nucl-ex
keywords massisochronousmethodstorageinstabilitiesprecisionringsaccurate
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 successful technique for accurate mass measurements of short-lived nuclides with relative precision of about $10^{-5}-10^{-7}$. Instabilities of the magnetic fields in storage rings are one of the major contributions limiting the achievable mass resolving power, which is directly related to the precision of the obtained mass values. A new data analysis method is proposed allowing one to minimise the effect of such instabilities. The masses of the previously measured at the CSRe $^{41}$Ti, $^{43}$V, $^{47}$Mn, $^{49}$Fe, $^{53}$Ni and $^{55}$Cu nuclides were re-determined with this method. An improvement of the mass precision by a factor of $\sim 1.7$ has been achieved for $^{41}$Ti and $^{43}$V. The method can be applied to any isochronous mass experiment irrespective of the accelerator facility. Furthermore, the method can be used as an on-line tool for checking the isochronous conditions of the storage ring.

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