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NSR database version of April 27, 2024.

Search: Author = E.V.Mardyban

Found 9 matches.

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2023AZ06      Eur.Phys.J. A 59, 278 (2023)

A.K.Azhibekov, S.M.Lukyanov, A.V.Shakhov, Yu.E.Penionzhkevich, M.A.Naumenko, H.M.Devaraja, E.K.Almanbetova, B.A.Urazbekov, A.Yu.Bodrov, E.V.Mardyban, A.Bahini, K.Mendibayev

Neutron transfer in the ⁴⁸Ca + ¹⁹⁷Au reaction

NUCLEAR REACTIONS ¹⁹⁷Au(⁴⁸Ca, X)¹⁹²Au/¹⁹⁴Au/¹⁹⁶Au/¹⁹⁸Au, E=300 MeV; measured reaction products, Eγ, Iγ. ⁴⁸Ca, ¹⁹⁷Au; deduced energies of upper single-particle neutron levels, probability density for neutron during a grazing collision, parameters, decay curves, T_1/2, σ. Comparison with available data. The U-400 cyclotron at the Flerov Laboratory of Nuclear Reactions, Joint Institute for Nuclear Research (FLNR, JINR).

doi: 10.1140/epja/s10050-023-01192-4
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2023JO11      Int.J.Mod.Phys. E32, 2340002 (2023)

R.V.Jolos, E.A.Kolganova, E.V.Mardyban, T.M.Shneidman

Reflection-asymmetric mode in the structure of heavy nuclei

NUCLEAR STRUCTURE ^238,240Pu, ^{220,222,224,226,228}Ra, ^152,156Gd, ^{224,226,228,230,232,234}Th, ²³⁸U, ¹⁴⁴Ba; calculated values of parity splitting as a function of angular momentum, parity splitting in the alternating parity bands; deduced parameters.

doi: 10.1142/S0218301323400025
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2022MA10      Phys.Rev. C 105, 024321 (2022)

E.V.Mardyban, E.A.Kolganova, T.M.Shneidman, R.V.Jolos

Evolution of the phenomenologically determined collective potential along the chain of Zr isotopes

NUCLEAR STRUCTURE ^{92,94,96,98,100,102}Zn; calculated low-ling collective levels, J, π, B(E2), collective potentials, potential-energy surfaces. Calculations using quadrupole-collective Bohr Hamiltonian. Comparison to experimental data.

doi: 10.1103/PhysRevC.105.024321
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2022MA66      Phys.Part. and Nucl.Lett. 19, 463 (2022)

E.V.Mardyban, T.M.Shneidman, E.A.Kolganova, R.V.Jolos

Influence of Triaxiality on the Description of Low-Energy Excitation Spectrum of ⁹⁶Zr

NUCLEAR STRUCTURE ⁹⁶Zr; calculated potential energies, B(E2); deduced influence of nonaxiality on the description of experimental data, impact of the probabilities of quadrupole transitions by the relative weights of the components with different value of projection K of angular momentum on the symmetry axis.

doi: 10.1134/S1547477122050272
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2022MA70      Phys.Part. and Nucl.Lett. 19, 646 (2022)

E.V.Mardyban, T.M.Shneidman, E.A.Kolganova, R.V.Jolos

Manifestation of Reflection-Asymmetric Deformation in the Structure of Superheavy Nuclei

NUCLEAR STRUCTURE ^{250,252,254,256,258,260,262}No, ^{254,256,258,260,262,264,266}Rf, ^{258,260,262,264,266,268,270}Sg, ^{264,266,268,270,272,274}Hs, ^{268,270,272,274,276,278,280,282}Ds; calculated negative parity energy levels, initial parity splitting, transition dipole, quadrupole and octupole moments using the cluster model of a dinuclear system; deduced assessments of the critical angular momenta at which the transition from oscillatory motion to stable reflection-asymmetric deformation.

doi: 10.1134/S1547477122060152
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2020JO08      Phys.Atomic Nuclei 83, 550 (2020)

R.V.Jolos, E.A.Kolganova, L.A.Malov, E.V.Mardyban, D.A.Sazonov, T.M.Shneidman

Phase Transitions and Shape Coexistence in Atomic Nuclei

NUCLEAR STRUCTURE ⁹⁶Zr, ^150,152Sm, ^152,156Gd, ²²²Ra, ²⁴⁰Pu, ²⁸⁶Fl; calculated energy levels, J, π, angular momenta, bands, potential energy surfaces.

doi: 10.1134/S1063778820040092
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2020MA32      Phys.Atomic Nuclei 83, 53 (2020)

E.V.Mardyban, T.M.Shneidman, E.A.Kolganova, R.V.Jolos

Description of Stabilization of Octupole Deformation in Alternating-Parity Bands of Heavy Nuclei

doi: 10.1134/S1063778820010093
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2020MA44      Phys.Rev. C 102, 034308 (2020)

E.V.Mardyban, E.A.Kolganova, T.M.Shneidman, R.V.Jolos, N.Pietralla

Description of the low-lying collective states of ⁹⁶Zr based on the collective Bohr Hamiltonian including the triaxiality degree of freedom

NUCLEAR STRUCTURE ⁹⁶Zr; calculated levels, J, π, B(E2), B(M1), quadrupole moment, ρ² for E0 transitions, potential energy surfaces in (β, γ) planes using geometrical collective model for low-lying positive-parity states. Comparison with experimental data.

doi: 10.1103/PhysRevC.102.034308
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2018MA67      Chin.Phys.C 42, 124104 (2018)

E.V.Mardyban, T.M.Shneidman, E.A.Kolganova, R.V.Jolos, S.-G.Zhou

Analytical description of shape transition in nuclear alternating parity bands

NUCLEAR STRUCTURE ^{222,224,226,228}Ra, ^{224,226,228,230,232,234,236}Th, ^{230,232,234,236,238,240}U, ^{238,240,242,244}Pu; calculated parity splitting as a function of angular momentum, transitional dipole moments, E1 matrix element. Comparison with available data.

doi: 10.1088/1674-1137/42/12/124104
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