The Masses of the Tz=-3/2 Nuclei 27P and 29S

Abstract

Isochronous mass spectrometry has been applied in the storage ring CSRe to measure the masses of the Tz=-3/2 nuclei 27P and 29S. The new mass excess value ME(29S) =-3094(13)~keV is 66(52)~keV larger than the result of the previous 32S(3He,6He)29S reaction measurement in 1973 and a factor of 3.8 more precise. The new result for 29S, together with those of the T=3/2 isobaric analog states (IAS) in 29P, 29Si, and 29Al, fit well into the quadratic form of the Isobaric Multiplet Mass Equation IMME. The mass excess of 27P has been remeasured to be ME(27P)=-685(42) keV. By analyzing the linear and quadratic coefficients of the IMME in the Tz=-3/2 sd-shell nuclei, it was found that the ratio of the Coulomb radius parameters is R≈0.96 and is nearly the same for all T=3/2 isospin multiplets. Such a nearly constant R-value, apparently valid for the entire light mass region with A>9, can be used to set stringent constraints on the isovector and isotensor components of the isospin non-conserving forces in theoretical calculations.