<p class="MsoNormal" style="mso-margin-top-alt: auto; mso-margin-bottom-alt: auto;"><span lang="EN-US" style="mso-ascii-font-family: Calibri; mso-ascii-theme-font: minor-latin; mso-fareast-font-family: 'Times New Roman'; mso-hansi-font-family: Calibri; mso-hansi-theme-font: minor-latin; mso-bidi-font-family: Calibri; mso-bidi-theme-font: minor-latin; color: #244061; mso-themecolor: accent1; mso-themeshade: 128; mso-fareast-language: EN-IN;">This book presents a striking demonstration of the synergies that exist between particle-physics experiments. A measurement is reported of the weak-phase γ, which is a fundamental parameter of the Standard Model and can be regarded as quantifying the amount of CP violation that is allowed by the theory. The parameter is measured through a determination of b-meson decays collected by the LHCb experiment at CERN. The b-mesons are reconstructed in a decay to a charm meson and a pion or a kaon, and the charm meson is itself reconstructed in one of two four-body final states (KKππ or ππππ). This is the first time these decay modes have been used in a γ measurement, which is itself a notable achievement of the thesis study. In order to interpret the measured observables in a theoretically clean manner, it is necessary to have knowledge of the dynamics of the charm-hadron decays. This knowledge is obtained from a study of charm-meson pair production in e+e- collisions at the psi(3770) resonance, using data collected by the BESIII experiment in Beijing. The quantum-correlations present in these decays give unique access to the required information, which is then imported back into the LHCb measurement. The precision obtained on γ&#xa0;is competitive with the most sensitive individual measurements so far performed of this parameter in other decay modes.</span></p>

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Model-Independent Measurement of the CKM Angle y in B±→[h+h-π+π–]Dh'±(h=K,π) Decays at LHCb and BESIIII

  • Martin Duy Tat

摘要

This book presents a striking demonstration of the synergies that exist between particle-physics experiments. A measurement is reported of the weak-phase γ, which is a fundamental parameter of the Standard Model and can be regarded as quantifying the amount of CP violation that is allowed by the theory. The parameter is measured through a determination of b-meson decays collected by the LHCb experiment at CERN. The b-mesons are reconstructed in a decay to a charm meson and a pion or a kaon, and the charm meson is itself reconstructed in one of two four-body final states (KKππ or ππππ). This is the first time these decay modes have been used in a γ measurement, which is itself a notable achievement of the thesis study. In order to interpret the measured observables in a theoretically clean manner, it is necessary to have knowledge of the dynamics of the charm-hadron decays. This knowledge is obtained from a study of charm-meson pair production in e+e- collisions at the psi(3770) resonance, using data collected by the BESIII experiment in Beijing. The quantum-correlations present in these decays give unique access to the required information, which is then imported back into the LHCb measurement. The precision obtained on γ is competitive with the most sensitive individual measurements so far performed of this parameter in other decay modes.