V. I. Lyashuk | Researchain

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Featured researches published by V. I. Lyashuk.

Bulletin of The Russian Academy of Sciences: Physics | 2011

The Concept of a Powerful Antineutrino Source

Yu. S. Lutostansky; V. I. Lyashuk

A powerful antineutrino source with a hard

Physics of Atomic Nuclei | 2000

Powerful dynamical neutrino source with a hard spectrum

Yu. S. Lutostansky; V. I. Lyashuk

Jetp Letters | 2016

Intense antineutrino source based on a lithium converter. Proposal for a promising experiment for studying oscillations

V. I. Lyashuk; Yu. S. Lutostansky

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Bulletin of The Russian Academy of Sciences: Physics | 2011

Production of transuranium elements in a binary model under conditions of pulse nucleosynthesis

Yu. S. Lutostansky; V. I. Lyashuk; I. V. Panov

Proceedings of the International Symposium | 2013

SUPERHEAVY ELEMENTS PRODUCTION IN HIGH INTENSIVE NEUTRON FLUXES

Yu. S. Lutostansky; V. I. Lyashuk; I. V. Panov

spectrum obtained upon the (n, γ) activation of the 7Li isotope and the subsequent β− decay (T1/2 = 0.84 s) of the 8Li isotope with the emission of high-energy

Bulletin of The Russian Academy of Sciences: Physics | 2012

Evaluating the yield of transuranium nuclides with masses of up to A = 270 via pulsed nucleosynthesis

Yu. S. Lutostansky; V. I. Lyashuk

Bulletin of The Russian Academy of Sciences: Physics | 2010

Calculation of transuranium element synthesis in intensive neutron fluxes under adiabatic conditions

Yu. S. Lutostanskii; V. I. Lyashuk; I. V. Panov

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Bulletin of The Russian Academy of Sciences: Physics | 2014

LiB neutron converter for a neutrino source

O. M. Gorbachenko; V. N. Kondratyev; Yu. S. Lutostansky; V. I. Lyashuk

Bulletin of The Russian Academy of Sciences: Physics | 2012

Simulating transuranium isotope yields upon explosive nucleosynthesis with allowance for elements of process dynamics

V. I. Lyashuk

with Ev of up to 13 MeV was discussed. The source can be constructed both in the static regime (by covering the active reactor zone with highly purified 7Li) and in the dynamic regime of operation. In the dynamic regime, lithium is pumped over in a closed cycle through a converter (i.e., a volumetric reservoir) close to the active reactor zone and further to a remote detector. The source can be constructed on the basis of both highly purified 7Li isotope in the metal state and chemical compounds of the 7Li isotope. The setup can be developed on the basis of an intensive neutron source or an accelerator with a neutron-producing target. In the dynamic regime, the proposed lithium antineutrino source enables us to increase the cross-section of the (

Jetp Letters | 2018