Conveners
Plenary
- Serge Bondarenko (JINR)
Plenary: Memorial session dedicated to Professor V.V. Burov
- Aleksandr Malakhov (JINR)
Plenary
- There are no conveners in this block
Plenary
- There are no conveners in this block
Plenary
- There are no conveners in this block
Plenary
- There are no conveners in this block
Plenary
- There are no conveners in this block
Cosmic ray research at the Physical Institute of the USSR Academy of Sciences motivated the construction of the Synchrophasotron. For this purpose, the Electrophysical Laboratory of the USSR Academy of Sciences was founded in 1953, which became part of JINR in 1956. The most important milestones in the development of the Synchrophasotron itself and experiments on it are presented. Lessons and...
The report presents the history of the construction of the Nuclotron and the results of experiments conducted on it.
Recent results, present status and futures perspectives in neutrino physics will be presented. In the study of neutrino oscillations an emphasis will be put on a search for CP violation and determination of the neutrino mass ordering. The results obtained in current long baseline accelerator experiments T2K and NOvA will be discussed. The brief overview and status of the next generation...
The report presents the results of the development of the approach to the study of relativistic nuclear interactions in the four-velocitiy space using the similarity principle.
The essence of the modification of the self-similar approach consists in the inclusion of quark-gluon dynamics in the generation of hadrons in the nuclear-nuclear interactions in the central rapidity region. Inclusive...
In 1963 first quasars were discovered which are supermassive black holes. The Kerr solution is a key component for models of active galactic nuclei (AGNs). In 1968 first pulsars were discovered and their model as rotating neutron stars (NSs) had been proposed. NSs were observed in different spectral band of electromagnetic radiation. In addition, a neutrino signal had been found for SN1987A....
The measurement of exclusive $e^+e^-$ to hadrons processes
is a significant part of the physics program of the CMD-3 experiment,
aimed to improve the calculation of the hadronic contribution to the
muon $g−2$ and to study the intermediate dynamics of the processes. We
present the most recent results obtained by using the data set of
about 700 pb^-1 collected by the CMD-3 detector at the...
In addition to $\Lambda$ hyperon, new data on $\Sigma$ hyperons production are compared to different Monte-Carlo models and contribute to the understanding of hadron production mechanisms.
The first measurements of the transverse momentum ($p_{\rm{T}}$) spectra of $\Sigma^{0}$ and $\bar{\Sigma}^{0}$ hyperons in pp collisions at $\sqrt{s} = 7$ TeV at the LHC are presented. The...
The STAR experiment at Brookhaven National Laboratory was built to study the behavior of strongly interacting matter at high collision energy. One of the primary goals for STAR’s experimental program at the Relativistic Heavy-Ion Collider (RHIC) is the investigation of Quantum chromodynamics (QCD) phase properties. These include the search for the location of QCD critical point and the...
Relativistic heavy-ion collisions provide a unique opportunity to
study the expansion dynamics and the transport properties of the produced
strongly interacting matter. The presentation will review the recent results of anisotropic
flow measurements for collision energies from √sNN = 5.2 TeV to 2 GeV
The generalized parton distribution functions (GPDs) of spin-3/2 particles are given 【1】. Sum rules of those GPDs and structure functions of the systems are obtained. As a typical example, we numerically calculate the electromagnetic and gravitational form factors of the spin-3/2 baryon (like \Delta or \Omega) by using a quark-diquark approach【2-4】. Lattice calculation results are considered...
Starting with the discovery of the nuclear component of cosmic rays, the nuclear track emulsion method (NTE) makes an opportunity to study the composition of the relativistic fragmentation of nuclei at high-energy accelerators. The promising potential of the relativistic approach to the analysis of ensembles of fragments was manifested in NTE exposed by nuclei at several GeV per nucleon...
In SU(4) linear - sigma model, the quark-hadron phase structure is analyzed, at vanishing and finite temperatures. The masses of pseudoscalar, scalar, vector and axial-vector charmed meson states are determined and compared with the available lattice QCD hadron spectrocopy and particle data group. The mass modification of the charmed mesons in thermal medium could be predicted, from which the...