Preprints and Communications

Here you can find JINR preprints and communications in pdf format starting from 1999.
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2012

E2-2012-2 (168.559) Lyuboshitz V.L., Lyuboshitz V.V. Lepton Mixing under the Lepton-Charge Nonconservation, Neutrino Masses and Oscillations and the «Forbidden» Decay The lepton-charge (Le, L, L) nonconserving interaction leads to the mixing of the electron, muon, and tau neutrinos, which manifests itself in spatial oscillations of a neutrino beam, and also to the mixing of the electron, negative muon, and - lepton, which, in particular, may be the cause of the «forbidden» radiative decay of the negative muon into the electron and quantum. Under the assumption that the nondiagonal elements of the mass matrices for neutrinos and ordinary leptons, connected with the lepton-charge nonconservation, are the same, and by performing joint analysis of the experimental data on neutrino oscillations and experimental restriction for the probability of the decay per unit time, the following estimate for the lower bound of neutrino mass has been obtained: m() > 1.5 eV/c2. E2-2012-12 (265.731) Tokarev M.V., Zborovsk On Self-Similarity of Top Production at Tevatron Results of analysis of D 1.0 fb1 data on top-quark differential cross section measurements at the Fermilab Tevatron collider at = 1960 GeV in the framework of z-scaling approach are presented. Flavour independence of the scaling function (z) observed in pp and interactions over a wide collision energy range = 19-1960 GeV is verified. This property of (z) was found for different hadrons from meson up to particle. The flavour independence of (z) is used as indication to self-similarity of top-quark production. A tendency to saturation of (z) at low z for top-quark is demonstrated. The momentum fractions x1 of the incoming (anti)protons as a function of the scaled transverse momentum pT/m and masses of heavy mesons are studied. We anticipate that data on low- and high-pT inclusive spectra of top-quark production at Tevatron and LHC energies could be of interest for verification of the self-similarity over a wide range of masses and different flavour content of produced particles. P8-2012-14 (2.877.207) Agapov N.N. et al. Development and Reconstruction of VBLHEP Cryogenic System for NICA Accelerator Complex (2012-2015) A new NICA accelerator complex (Nuclotron-based Ion Collider fAcility), presently under construction at JINR, will be, upon its completion in 2016, among the most advanced research instruments of the physics community. The facility is aimed to provide collider experiments with heavy ions up to uranium (gold at the beginning stage) with a centre of mass energy up to 11 GeV/u and an average luminosity up to 1027 cm-2 s-1. The NICA cryogenics will be based on the modernized liquid helium plant that was built in the early 1990s for the superconducting synchrotron known as Nuclotron. The main goals of the modernization are increasing of the total refrigerator capacity from 4000 to 8000 W at 4.5 K, creating a new distribution system of liquid helium, and ensuring the shortest possible cooldown time. These goals will be achieved by the use of an additional 1000 l/h helium liquefier and «satellite» refrigerators located in close proximity to the accelerator rings. We demonstrate helium flow diagrams with major new components and discuss a system of liquid nitrogen that will be used for shield refrigerating at 77 K and at the first stage of cooling down of three accelerator rings with total length of about 1 km and «cold» mass of 220 t. P13-2012-16 (236.117) Pepelyshev Yu.N. et al. Experimental Estimations of the Kinetics Parameters of the IBR-2М Reactor by Stochastic Noises Experimental investigations of stochastic fluctuations of pulse energy of the IBR-2M reactor have been carried out which allowed us to obtain some of the parameters of the reactor kinetics. At different levels of average power a sequence of values of pulse energy was recorded with the calculation of the distribution parameters. An ionization chamber with boron installed near the active zone was used as a neutron detector. The research results allowed us to estimate the average lifetime of prompt neutrons = (6.53 0.2) 10-8 s, absolute power of the reactor and intensity of the source of spontaneous neutrons Ssp (6.72 0.12) 106 s-1. It was shown that the experimental results are close to the calculated ones.

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