High precision measurement of the $^{99}$Tc β spectrum
Résumé
Highly precise measurements of the $^{99}$TTc β pectrum were performed in two laboratories using metallic magnetic calorimeters. Independent sample preparations, evaluation methods and analyses yield consistent results and the spectrum could be measured down to less than 1 keV. Consistent β spectra were also obtained via cross-evaluations of the experimental data sets. An additional independent measurement with silicon detectors in a 4π configuration confirms the spectrum shape above 25 keV. Detailed theoretical calculations were performed using the nuclear shell model and including atomic effects. The spectrum shape was found to be sensitive to the effective value of the axial-vector coupling constant. Combining measurements and predictions, we extracted Qβ =295.82(16) keV, g^eff_V = 0.376(5). and g$^{eff}_A$ = 0.574(36), which seems to solve an inconsistency of the quenched coupling constants between first and higher forbidden nonunique transitions. Furthermore, we derived the mean energy of the β spectrum Eβ=98.51(23) keV, log f = -0.47660(22) and log ft = 12.3478(23).
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