Galina PAKHLOVA
(MIPT,MEPhI)
07/10/2015, 08:00
Nuclear physics and particle physics
Recently dozens of new charmonium states have been observed. Most of them are so-called “XYZ” states that do not fit with the predictions of the quark model. The nature of these exotic states is still unclear. We present new experimental results from B-factories, LHCb and BESIII experiments, discuss interpretations of charmoniumlike states and perspective charmonium study.
Dr.
Roman Mizuk
(MEPhI)
07/10/2015, 08:20
Nuclear physics and particle physics
We discuss recent results on bottomonium(-like) states from e+e- colliders. In particular we consider measurements of total b-bbar cross section and cross sections for exclusive bottomonia + light hadrons processes in the region of the Upsilon(10860) and Upsilon(11020) resonances. We also report on the recent progress with the charged bottomonium-like states Zb(10610) and Zb(10650).
Pavel Pakhlov
(MEPhI)
07/10/2015, 08:40
Nuclear physics and particle physics
We review numerous results in *B*, charm and tau physics from the *B* Factories, obtained last decade. They provide currently strong constraints on New Physics extensions beyond the Standard Model. We discuss the physics program at Super *B* factory, a next generation asymmetric collider with 50 times the luminosity of the existing colliders, and its capability in cooperation with LHC of new...
Dr.
Nikolay Skobelev
(Joint Insitute for Nuclear Research, Dubna, Russia)
07/10/2015, 09:00
Nuclear physics and particle physics
Some problems of Universe evolution, nucleosynthesis and cosmochronology are considered from the nuclear and elementary particles physics point of view particularly using the last results obtained by using the radioactive nuclear beams. The comparison of the processes taking place in the Universe with the mechanism of formation, decay and interaction at different energies of nuclei is carried...
Dr.
Pavel Zarubin
(Joint Institute for Nuclear Research)
07/10/2015, 09:30
Nuclear physics and particle physics
Nuclear track emulsion (NTE) is still retaining its exceptional position as a means for studying the structure of diffractive dissociation of relativistic nuclei owing to the completeness of observation of fragment ensembles and owing to its record spatial resolution. Separation of products of fragmentation and charge-exchange reactions of accelerated stable nuclei make it possible to create...
