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We present a systematic global analysis of dineutrino modes $b to q , u bar u$, $q=d,s$, and charged dilepton $b to q ,ell^+ ell^-$ transitions. We derive improved or even entirely new limits on dineutrino branching ratios including decays $B^0 to (K^0 , X_s), u bar u$, $B_s to phi , u bar u$ and $B^0 to (pi^0, rho^0), u bar u$ from dineutrino modes which presently are best constrained: $B^+ to (K^+,pi^+, rho^+) , u bar u$ and $B^0 to K^{*0} , u bar u$. Using SMEFT we obtain new flavor constraints from the dineutrino modes, which are stronger than the corresponding ones from charged dilepton rare $b$-decay or Drell-Yan data, for $e tau$ and $tau tau$ final states, as well as for $mu tau$ ones in $b to s$ processes. The method also allows to put novel constraints on semileptonic four-fermion operators with top quarks. Implications for ditau modes $b to s , tau^+ tau^-$ and $b to d , tau^+ tau^-$ are worked out. Furthermore, the interplay between dineutrinos and charged dileptons allows for concrete, novel tests of lepton universality in rare $B$-decays. Performing a global fit to $b to s ,mu^+ mu^-, ,s gamma$ transitions we find that lepton universality predicts the ratio of the $B^0 to K^{*0} , u bar u$ to $B^0 to K^0 , u bar u$ ($B^+ to K^+ , u bar u$) branching fractions to be within 1.7 to 2.6 (1.6 to 2.4) at $1,sigma$, a region that includes the standard model, and that can be narrowed with improved charged dilepton data. There is sizable room outside this region where universality is broken and that can be probed with the Belle II experiment. Using results of a fit to $B^0 to mu^+ mu^-$, $B^0_sto bar{K}^{ast 0},mu^+mu^-$ and $ B^+ to pi^+, mu^+ mu^-$ data we obtain an analogous relation for $|Delta b|=|Delta d|=1$ transitions.
Two of the elements of the Cabibbo-Kobayashi-Maskawa quark mixing matrix, $|V_{ub}|$ and $|V_{cb}|$, are extracted from semileptonic B decays. The results of the B factories, analysed in the light of the most recent theoretical calculations, remain p
Rare B decays allow to investigate fundamental interactions regarding their flavor, chiral, Dirac and CP properties. In anticipation of the large data samples of exclusive B decays into muons from the forthcoming LHC experiments, in particular LHCb,
We study the exclusive semileptonic $B$-meson decays $Bto K(pi)ell^+ell^-$, $Bto K(pi) ubar u$, and $Btopitau u$, computing observables in the Standard model using the recent lattice-QCD results for the underlying form factors from the Fermilab Latti
We discuss a method to construct observables protected against QCD uncertainties based on the angular distribution of the exclusive Bd -> K(*0}(-> Kpi) l+ l- decay. We focus on the identification and the interpretation of all the symmetries of the di
B meson semileptonic decays are a crucial tool in our studies of the quark mixing parameters Vcb and Vub. The interplay between experimental and theoretical challenges to achieve precision in the determination of these fundamental parameters is discussed.