Angular analysis of $B \to K^ e^+ e^-$ in the low-$q^2$ region with new electron identification at Belle
We perform an angular analysis of the $B\to K^* e^+ e^-$ decay for the dielectron mass squared, $q^2$, range of $0.0008$ to $1.1200 ~\text{GeV}^2 /c^4$ using the full Belle data set in the $K^{*0} \to K^+ \pi^-$ and $K^{*+} \to K_S^0 \pi^+$ channels, incorporating new methods of electron identificat...
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| Format: | Artikel |
| Sprache: | eng |
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| Zusammenfassung: | We perform an angular analysis of the $B\to K^* e^+ e^-$ decay for the
dielectron mass squared, $q^2$, range of $0.0008$ to $1.1200 ~\text{GeV}^2
/c^4$ using the full Belle data set in the $K^{*0} \to K^+ \pi^-$ and $K^{*+}
\to K_S^0 \pi^+$ channels, incorporating new methods of electron identification
to improve the statistical power of the data set. This analysis is sensitive to
contributions from right-handed currents from physics beyond the Standard Model
by constraining the Wilson coefficients $\mathcal{C}_7^{(\prime)}$. We perform
a fit to the $B\to K^* e^+ e^-$ differential decay rate and measure the
imaginary component of the transversality amplitude to be $A_T^{\rm Im} = -1.27
\pm 0.52 \pm 0.12$, and the $K^*$ transverse asymmetry to be $A_T^{(2)} = 0.52
\pm 0.53 \pm 0.11$, with $F_L$ and $A_T^{\rm Re}$ fixed to the Standard Model
values. The resulting constraints on the value of $\mathcal{C}_7^{\prime}$ are
consistent with the Standard Model within a $2\sigma$ confidence interval. |
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| DOI: | 10.48550/arxiv.2404.00201 |