Experimental Particle Physics Rolling Grant 2009-2014
Lead Research Organisation:
University of Manchester
Department Name: Physics and Astronomy
Abstract
The Particle Physics Group at Manchester University will continue to probe the fundamental particles and forces of nature. This is done by several experiments: ATLAS at the LHC at CERN will study proton-proton collisions at the highest energies yet, and is expected to reveal a wealth of new particles. LHCb will reveal further details of the properties of B hadrons. Dzero is at Fermilab, which is presently the highest energy collider till the LHC starts. SuperNemo will search for a type of nuclear beta decay which, if found, would show that the neutrino is its own antiparticle. We also run an ongoing R and D programme for the detectors, electronics, accelerators and computers we use for our investigations into fundamental physics.
Organisations
Publications
Aubert B
(2009)
Search for invisible decays of the Upsilon(1S).
in Physical review letters
Aubert B
(2009)
Evidence for the eta(b)(1S) meson in radiative Upsilon(2S) decay.
in Physical review letters
Da ViÀ C
(2009)
3D Active Edge Silicon Detector Tests With 120 GeV Muons
in IEEE Transactions on Nuclear Science
Aubert B
(2009)
Measurement of the branching fraction and ? ¯ polarization in B 0 ? ? ¯ p p -
in Physical Review D
Aubert B
(2009)
Improved limits on lepton-flavor-violating tau decays to lphi, lrho, lK, and lK.
in Physical review letters
Aubert B
(2009)
Evidence for X(3872)-->psi(2S)gamma in B(+/-)-->X(3872)K(+/-) decays and a study of B-->cc[over ]gammaK.
in Physical review letters
Aubert B
(2009)
Improved measurement of B+ --> rho+ rho0 and determination of the quark-mixing phase angle alpha.
in Physical review letters
Aubert, Bernard
(2009)
Search for a Narrow Resonance in e+e- to Four Lepton Final States
Aubert, Bernard
(2009)
Search for Dimuon Decays of a Light Scalar in Radiative Transitions tau(3S) - gamma A0
Abazov VM
(2009)
Search for large extra spatial dimensions in the dielectron and diphoton channels in pp[over ] collisions at sqrt[s]=1.96 TeV.
in Physical review letters