In the last decade, flavour physics has witnessed unprecedented experimental and theoretical progress, opening the era of precision flavour tests of the Standard Model (SM). The advent of B factories, with the measurements of the angles of the Unitarity Triangle (UT), has opened up the possibility of the simultaneous determination of SM and New Physics (NP) parameters in the flavour sector. Detailed reviews of recent theoretical and experimental results can be found in the proceedings of this conference [1], and so will not be repeated here. On the experimental side, we will focus on the very recent results on B0s−B¯0s oscillations by the CDF collaboration. We will then briefly present the impact of the present experimental data on the SM and on several NP scenarios.
In the last decade, flavour physics has witnessed unprecedented experimental and theoretical progress, opening the era of precision flavour tests of the Standard Model (SM). The advent of B factories, with the measurements of the angles of the Unitarity Triangle (UT), has opened up the possibility of the simultaneous determination of SM and New Physics (NP) parameters in the flavour sector. Detailed reviews of recent theoretical and experimental results can be found in the proceedings of this conference [1], and so will not be repeated here. On the experimental side, we will focus on the very recent results on B0s−B¯0s oscillations by the CDF collaboration. We will then briefly present the impact of the present experimental data on the SM and on several NP scenarios.
Flavour Physics / Giagu, Stefano; Silvestrini, L.. - STAMPA. - 1:(2006), pp. 93-100. (Intervento presentato al convegno IFAE Incontri di Fisica delle Alte Energie 2006) [10.1007/978-88-470-0530-3_10].
Flavour Physics
GIAGU, Stefano;
2006
Abstract
In the last decade, flavour physics has witnessed unprecedented experimental and theoretical progress, opening the era of precision flavour tests of the Standard Model (SM). The advent of B factories, with the measurements of the angles of the Unitarity Triangle (UT), has opened up the possibility of the simultaneous determination of SM and New Physics (NP) parameters in the flavour sector. Detailed reviews of recent theoretical and experimental results can be found in the proceedings of this conference [1], and so will not be repeated here. On the experimental side, we will focus on the very recent results on B0s−B¯0s oscillations by the CDF collaboration. We will then briefly present the impact of the present experimental data on the SM and on several NP scenarios.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.