The ratio of M-to Z,-orbital electron capture in the decay of 35-day Ar 37 has been measured in a singlewire proportional counter containing the gaseous source. This counter was operated with variable paralysis times, 2.0 and 3,8 msec being used in the present experiments to minimize the contribution from afterpulses. Recent investigations of the pulse-height distribution from proportional counters due to single-and multipleelectron events make it possible to measure single-electron spectra down to essentially zero energy with much greater accuracy than heretofore. The experiment was undertaken because of the considerable disagreement between experimental and theoretical M/L capture ratios, particularly in the low-Z region. A survey of all experimental work on M capture is included for comparison with available theoretical results. In the decay of Ar 37 the experimental value for the M/L capture ratio is PM/PL = 0.104_O.OO3 +0006 , where the error limits have been subjected to careful detailed analysis. From this result, a value of ^a = 0.980±0.015 for chlorine was determined, where k a is the fraction of K a x rays in the K series of chlorine. The theoretical predictions of Bahcall for PM/PL lie about 23% above the experimental point, for a theory with exchange correction. The older theoretical value due to Wapstra et al. is in no better agreement with experiment, even if a correction for exhange is applied. An intensive effort is reported to measure the L/K capture ratio in the decay of 53.5-day Be 7 , as gaseous ^He^Be 7 in the single-wire proportional counter, but owing to the low energy of the iT-capture events (55 eV) and very low counting statistics, this measurement appears to be beyond the present state of the proportional-counter art.
The M/I and I /E. orbital-electron-capture ratios in the decay of~5 Fe have been determined by introducing the radioactive compound ferrocene-~5Fe into a multiwire, wall-less anticoincidence proportional counter as part of the counting gas mixture. The results are P~/Pl =0.157+ 0.003 and PL /Pz =0.117+0.001 at Z =26. These values are compared with various theoretical predictions and, together with previous experimental results on M/L capture ratios at low Z, they demonstrate that of all the combinations of theoretical approaches, the Watson-Freeman wave functions with the exchange corrections of Vatai are the only ones which give good agreement with experiment at low Z. All other theoretical combinations lie considerably higher than experiment in the region below Z =36.
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