Measurement of the half-life of the T=$\frac{1}{2}$ mirror decay of $^{19}$Ne and its implication on physics beyond the standard model
Phys. Rev. Lett. 112, 212301 (2014) The $\frac{1}{2}^+ \rightarrow \frac{1}{2}^+$ superallowed mixed mirror decay of $^{19}$Ne to $^{19}$F is excellently suited for high precision studies of the weak interaction. However, there is some disagreement on the value of the half-life. In a new measurement...
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| creator | Broussard, L. J Back, H. O Boswell, M. S Crowell, A. S Dendooven, P Giri, G. S Howell, C. R Kidd, M. F Jungmann, K Kruithof, W. L Mol, A Onderwater, C. J. G PattieJr, R. W Shidling, P. D Sohani, M van der Hoek, D. J Rogachevskiy, A Traykov, E Versolato, O. O Willmann, L Wilschut, H. W Young, A. R |
| description | Phys. Rev. Lett. 112, 212301 (2014) The $\frac{1}{2}^+ \rightarrow \frac{1}{2}^+$ superallowed mixed mirror decay
of $^{19}$Ne to $^{19}$F is excellently suited for high precision studies of
the weak interaction. However, there is some disagreement on the value of the
half-life. In a new measurement we have determined this quantity to be
$T_{1/2}$ = $17.2832 \pm 0.0051_{(stat)}$ $\pm 0.0066_{(sys)}$ s, which differs
from the previous world average by 3 standard deviations. The impact of this
measurement on limits for physics beyond the standard model such as the
presence of tensor currents is discussed. |
| doi_str_mv | 10.48550/arxiv.1312.3645 |
| format | Article |
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of $^{19}$Ne to $^{19}$F is excellently suited for high precision studies of
the weak interaction. However, there is some disagreement on the value of the
half-life. In a new measurement we have determined this quantity to be
$T_{1/2}$ = $17.2832 \pm 0.0051_{(stat)}$ $\pm 0.0066_{(sys)}$ s, which differs
from the previous world average by 3 standard deviations. The impact of this
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of $^{19}$Ne to $^{19}$F is excellently suited for high precision studies of
the weak interaction. However, there is some disagreement on the value of the
half-life. In a new measurement we have determined this quantity to be
$T_{1/2}$ = $17.2832 \pm 0.0051_{(stat)}$ $\pm 0.0066_{(sys)}$ s, which differs
from the previous world average by 3 standard deviations. The impact of this
measurement on limits for physics beyond the standard model such as the
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of $^{19}$Ne to $^{19}$F is excellently suited for high precision studies of
the weak interaction. However, there is some disagreement on the value of the
half-life. In a new measurement we have determined this quantity to be
$T_{1/2}$ = $17.2832 \pm 0.0051_{(stat)}$ $\pm 0.0066_{(sys)}$ s, which differs
from the previous world average by 3 standard deviations. The impact of this
measurement on limits for physics beyond the standard model such as the
presence of tensor currents is discussed.</abstract><doi>10.48550/arxiv.1312.3645</doi><oa>free_for_read</oa></addata></record> |
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| title | Measurement of the half-life of the T=$\frac{1}{2}$ mirror decay of $^{19}$Ne and its implication on physics beyond the standard model |
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