Prof.
Gudrun Hiller
(Dortmund)
17/03/2011 08:30
Theory
Ordinary
We present todays and future opportunities of b -> s mu^+ mu^- decays for
testing the Standard Model and explore its borders.
Prof.
Mikhail Danilov
(ITEP)
17/03/2011 08:50
Ordinary
The status and prospects of the SuperKEKB e+e- collider and the BelleII detector are presented. Several examples of physics measurement to be performed with the BelleII at SuperKEKB are discussed.
amarjit soni
(BNL)
17/03/2011 09:10
Theory
Ordinary
Dr
Yuehong Xie
(University of Edinburgh)
17/03/2011 09:35
Experiment
Ordinary
The study of CP violation (CPV) in B decays is a powerful tool to search for new physics beyond the Standard Model. The LHCb experiment will be able to improve the precision of many measurements that have been performed at the B-factories, and make the first high precision studies of CPV in the B_s system. First results will be presented from the 2010 LHC run, and future prospects reviewed."
Dr
Andreas Juettner
(CERN)
17/03/2011 09:55
Theory
Ordinary
A number of EW precision tests of the SM depend on non-perturbative QCD-input which can be predicted model-independently by Lattice QCD.
After briefly introducing basic concepts I will present the status of the field. Recent efforts that are aimed at facilitating access to lattice results for the non-specialist will be reviewed. Time permitting, very interesting recent developments will be...
Taku Izubuchi
(Brookhaven National Laboratory Upton, NY USA)
17/03/2011 10:40
Experiment
Ordinary
Dr
diego martinez santos
(cern)
17/03/2011 11:00
Experiment
Ordinary
A search for the decays Bs-->mumu and B0--> mumu is performed with about 37 pb-1
of pp collisions at
s-1/2 = 7 TeV collected by the LHCb experiment at the Large Hadron
Collider at CERN. The observed numbers of events are consistent with the background
expectations. The resulting upper limits on the branching ratios are B(Bs-->mumu)
< 43(56) x 10-9 and B(B0 -->mumu) < 12(15) x 10-9 at...
Dr
Joern Kersten
(University of Hamburg)
17/03/2011 11:20
Theory
Ordinary
The entropy produced in the decays of super-weakly interacting particles may help to reconcile thermal leptogenesis and Big Bang Nucleosynthesis (BBN) in scenarios with gravitino dark matter, which is usually difficult due to late decays of the next-to-lightest supersymmetric particle (NLSP) spoiling BBN. We study this possibility for a general neutralino NLSP. We discuss the constraints on...
