Bereiche | Tage | Auswahl | Suche | Aktualisierungen | Downloads | Hilfe

T: Fachverband Teilchenphysik

T 19: Flavourphysik (Theorie) 2

T 19.8: Vortrag

Montag, 4. März 2013, 18:35–18:50, WIL-B122

Form factor for semi-leptonic B→πℓν decays — •Felix Bahr1, Fabio Bernardoni1, John Bulava2, Rainer Sommer1, Hubert Simma1, and Alberto Ramos11NIC, DESY Zeuthen — 2CERN, Geneva

The CKM-Matrix element Vub is currently insufficiently well known; there exist differences between its value obtained from different methods of determination, inclusive BXuℓ ν, exclusive B→ πℓν and exclusive B→ τ ν decays. To investigate these, as well as to match improved experimental data, high precision lattice QCD calculations are required, keeping systematic errors under control. To this end, we simulate semi-leptonic B→π ℓ ν decays of pseudoscalar B mesons made up of a b and a light u or d quark. The hadronic matrix element


π(pπ)
ū γµb 
B(pπ+q

pB + pπ 
f+(q2) + 
pB − pπ 
f(q2),     (1)

q2=(pBpπ)2, can be parametrised by the form factors f+, f. We work on an L3× 2L hypercubic lattice with finite lattice spacing a and Nf=2 seaquark flavours. To keep finite size effects under control, we require pion masses to fulfill Lmπ 4, which for lattice spacings of a≈0.05 … 0.08   fm and sizes L=32,48,64 corresponds to mπ≈190…450   MeV. Having simulated for various a and mπ, we will eventually extrapolate to the physical point, a→ 0, mπmπphys. The b quark is treated in Heavy Quark Effective Theory, where in leading order the b quark is static and one then performs an expansion in 1/mb. We use a model independent parametrisation for the q2 dependence of f+(q2) to perform a combined fit of experimental and theory data to obtain Vub.

100% | Bildschirmansicht | English Version | Kontakt/Impressum/Datenschutz
DPG-Physik > DPG-Verhandlungen > 2013 > Dresden