Studies of $C\!P$ violation can be used to test the Standard Model and might give insight into New Physics. Therefore, a wide range of $C\!P$ measurements, including time-dependent decay rate measurements, are performed with the LHCb Experiment. Many of these are subject to mixing of neutral $B$ meson states with their antiparticles. The knowledge of the initial $B$ flavour is essential in these cases which is why several Flavour Tagging algorithms are used to deduce this information from the available event properties. These algorithms must be adjusted to changes in the shape of the event properties, resulting from an upgrade of the LHC centre-of-mass energy to $\sqrt{s} = 13\,\mathrm{TeV}$. To simplify this process, the Flavour Tagging so...
An algorithm is described for tagging the flavour content at production of neutral B mesons in the L...
Flavour tagging, i.e. the inference of the production flavour of reconstructed B hadrons, is essen- ...
We report on the optimization and calibration of the flavour tagging algorithms using the decays ...
The LHCb purposes are to make precise measurements of $B$ and $D$ meson decays. In particular in tim...
The $C\!P$ violation measurements represent one of the key topic covered by the LHCb collaboration.T...
Flavour Tagging at the LHCb experiment is a fundamental tool for the measurement of B oscillations a...
In this thesis new developments of $\textit{Flavour Tagging}$ algorithms for the $LHCb$ experiment a...
To do precise CP violation measurements, the most possible accurate knowledge of the flavour at prod...
An algorithm is described for tagging the flavour content at production of neutral $B$ mesons in the...
The calibration and performance of the opposite-side flavour tagging algorithms used for the measure...
Flavour tagging, i.e. the inference of the production flavour of reconstructed $b$ hadrons, is essen...
Decay-time-dependent measurements of $B$ mesons require knowledge of the initial $B$ flavour. At LHC...
An algorithm is described for tagging the flavour content at production of neutral B mesons in the L...
Flavour tagging, i.e. the inference of the production flavour of reconstructed B hadrons, is essen- ...
We report on the optimization and calibration of the flavour tagging algorithms using the decays ...
The LHCb purposes are to make precise measurements of $B$ and $D$ meson decays. In particular in tim...
The $C\!P$ violation measurements represent one of the key topic covered by the LHCb collaboration.T...
Flavour Tagging at the LHCb experiment is a fundamental tool for the measurement of B oscillations a...
In this thesis new developments of $\textit{Flavour Tagging}$ algorithms for the $LHCb$ experiment a...
To do precise CP violation measurements, the most possible accurate knowledge of the flavour at prod...
An algorithm is described for tagging the flavour content at production of neutral $B$ mesons in the...
The calibration and performance of the opposite-side flavour tagging algorithms used for the measure...
Flavour tagging, i.e. the inference of the production flavour of reconstructed $b$ hadrons, is essen...
Decay-time-dependent measurements of $B$ mesons require knowledge of the initial $B$ flavour. At LHC...
An algorithm is described for tagging the flavour content at production of neutral B mesons in the L...
Flavour tagging, i.e. the inference of the production flavour of reconstructed B hadrons, is essen- ...
We report on the optimization and calibration of the flavour tagging algorithms using the decays ...