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Preprints and Communications
 Here
you can find JINR preprints and communications in pdf format starting
from 1999.
File size is given in bytes in round brackets.
| 2019 |
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P16-2019-16 (329.957)
Mokrov Yu. V., Morozova S. V.
The Correction of Albedo Dosimeters DVGN-01 Readout at the Neutron Generator EG-5 with the Help of a Spherical Albedo System
The results of readout correction for albedo dosimeters DVGN-01 using a spherical albedo system are presented.
The measurements were carried out behind the neutron generator EG-5. On the basis of the presented results,
the correction coefficients were recommended for individual radiation control at the neutron generator.
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P11-2019-9 (86.985)
Amirkhanov I. V., Sarker N. R., Sarkhadov I.
About One Method of Approximate-Analytical Solution of the
Quantum-Mechanical Three-Body Problem
A method is proposed for investigating the solutions of a single
quantum-mechanical three-body problem. The boundary value problem for a
system of two particles moving in the potential field of the third particle is
studied. The
interaction potentials between the particles are chosen to be quadratically
growing. In this case, the two-body problem has an exact solution. The
solution of the original three-body problem is represented as an expansion
in the solutions of the two-body problem. The coefficients of the expansion
yield a homogeneous linear matrix equation. Equating the determinant of this
equation to zero, we find the eigenvalues of the original problem and the
coefficients of the expansion. Since the elements of the matrix of algebraic
equations with solutions of the two-body problem are calculated
analytically, the eigenvalues of the three-body problem depend explicitly on
the parameters of the potentials. Changing these parameters in an arbitrary
way, we can obtain the desired spectra, i.e., one can control the eigenvalues
of the original problem.
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P3-2019-8 (239.209)
Rzyanin M. V., Shabalin E. P.
On the Issue of Stability and Safety of the Superbooster «Neptun»
Highly intense pulsed neutron source which should replace the pulsed reactor
IBR-2M currently in operation after its wear-out, can be made as
superbooster, that is a powerful breeder of neutrons produced in
accelerating proton target. Usually, superbooster is considered to be a safe
and reliable nuclear facility. However, as indicated in the paper, powerful
superbooster can be less stable in operation than pulsed reactor. Therefore,
problems of its safety call for close study.
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E9-2019-4 (170.120)
Sumbaev A. P., Barnyakov A. Yu., Levichev A. E.
On the Limits for the Accelerated Beam Current
in the LUE-200 Linac of the IREN Fañility
The beam current loading of the accelerating fields is discussed for the
linear accelerator LUE-200 of the IREN facility (a neutron source at the Frank
Laboratory of Neutron Physics, JINR). The LUE-200 electron linac consists of
two disk loaded traveling wave accelerating structures with the operating
frequency of 2856 MHz and SLED-type power compression system. The limits for
the accelerated beam current are defined for different pulse durations of
the beam current and RF power. The calculated results are discussed and
compared with the measurements.
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E9-2019-2 (585.768)
Karamyshev O. et al.
Conceptual Design of the SC230 Superconducting Cyclotron for Proton Therapy
Physical design of the compact superconducting cyclotron SC230 has been
performed. The cyclotron will deliver up to 230 MeV beam for proton
therapy and medico-biological research. We have performed simulations of
magnetic and accelerating systems of the SC230 cyclotron and specified the
main parameters of the accelerator. Possible schema of the extraction system
and preliminary results of beam dynamics simulations are presented. Codes
and methods used for the beam tracking are shortly described.
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