Search for CP violation in D s + → h + π 0 $$ {D}_{(s)}^{+}\to {h}^{+}{\pi}^0 $$ and D s + → h + η $$ {D}_{(s)}^{+}\to {h}^{+}\eta $$ decays

Search for CP violation in D s + → h + π 0 $$ {D}_{(s)}^{+}\to {h}^{+}{\pi}^0 $$ and D s + → h + η $$ {D}_{(s)}^{+}\to {h}^{+}\eta $$ decays

Abstract Searches for CP violation in the two-body decays D s + → h + π 0 $$ {D}_{(s)}^{+}\to {h}^{+}{\pi}^0 $$ and D s + → h + η $$ {D}_{(s)}^{+}\to {h}^{+}\eta $$ (where h+ denotes a π+ or K+ meson) are performed using pp collision data collected by the LHCb experiment corresponding to either 9 fb...

Full description

Bibliographic Details
Main Authors: Aaij, R. (Author), Abellán Beteta, C. (Author), Ackernley, T. (Author), Adeva, B. (Author), Adinolfi, M. (Author), Afsharnia, H. (Author), Aidala, C. A. (Author), Aiola, S. (Author), Ajaltouni, Z. (Author), Akar, S. (Author), Albrecht, J. (Author), Alessio, F. (Author), Alexander, M. (Author), Alfonso Albero, A. (Author), Aliouche, Z. (Author), Alkhazov, G. (Author), Alvarez Cartelle, P. (Author)
Format: Article
Language:English
Published: Springer Berlin Heidelberg, 2021-11-01T14:33:44Z.
Subjects:
Article
Online Access:Get fulltext
Description
Summary:Abstract Searches for CP violation in the two-body decays D s + → h + π 0 $$ {D}_{(s)}^{+}\to {h}^{+}{\pi}^0 $$ and D s + → h + η $$ {D}_{(s)}^{+}\to {h}^{+}\eta $$ (where h+ denotes a π+ or K+ meson) are performed using pp collision data collected by the LHCb experiment corresponding to either 9 fb−1 or 6 fb−1 of integrated luminosity. The π0 and η mesons are reconstructed using the e+e−γ final state, which can proceed as three-body decays π0 → e+e−γ and η → e+e−γ, or via the two-body decays π0 → γγ and η → γγ followed by a photon conversion. The measurements are made relative to the control modes D s + → K S 0 h + $$ {D}_{(s)}^{+}\to {K}_{\mathrm{S}}^0{h}^{+} $$ to cancel the production and detection asymmetries. The CP asymmetries are measured to be A CP D + → π + π 0 = − 1.3 ± 0.9 ± 0.6 % , A CP D + → K + π 0 = − 3.2 ± 4.7 ± 2.1 % , A CP D + → π + η = − 0.2 ± 0.8 ± 0.4 % , A CP D + → K + η = − 6 ± 10 ± 4 % , A CP D s + → K + π 0 = − 0.8 ± 3.9 ± 1.2 % , A CP D s + → π + η = 0.8 ± 0.7 ± 0.5 % , A CP D s + → K + η = 0.9 ± 3.7 ± 1.1 % , $$ {\displaystyle \begin{array}{c}{\mathcal{A}}_{CP}\left({D}^{+}\to {\pi}^{+}{\pi}^0\right)=\left(-1.3\pm 0.9\pm 0.6\right)\%,\\ {}{\mathcal{A}}_{CP}\left({D}^{+}\to {K}^{+}{\pi}^0\right)=\left(-3.2\pm 4.7\pm 2.1\right)\%,\\ {}\begin{array}{c}{\mathcal{A}}_{CP}\left({D}^{+}\to {\pi}^{+}\eta \right)=\left(-0.2\pm 0.8\pm 0.4\right)\%,\\ {}{\mathcal{A}}_{CP}\left({D}^{+}\to {K}^{+}\eta \right)=\left(-6\pm 10\pm 4\right)\%,\\ {}\begin{array}{c}{\mathcal{A}}_{CP}\left({D}_s^{+}\to {K}^{+}{\pi}^0\right)=\left(-0.8\pm 3.9\pm 1.2\right)\%,\\ {}\begin{array}{c}{\mathcal{A}}_{CP}\left({D}_s^{+}\to {\pi}^{+}\eta \right)=\left(0.8\pm 0.7\pm 0.5\right)\%,\\ {}{\mathcal{A}}_{CP}\left({D}_s^{+}\to {K}^{+}\eta \right)=\left(0.9\pm 3.7\pm 1.1\right)\%,\end{array}\end{array}\end{array}\end{array}} $$ where the first uncertainties are statistical and the second systematic. These results are consistent with no CP violation and mostly constitute the most precise measurements of A CP $$ {\mathcal{A}}_{CP} $$ in these decay modes to date.

Similar Items