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NSR database version of May 24, 2024.

Search: Author = K.Gridnev

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2016FA15      Bull.Rus.Acad.Sci.Phys. 80, 867 (2016)

S.N.Fadeev, K.A.Gridnev

Low energy α+16O scattering in the orthogonality condition model

NUCLEAR REACTIONS 16O(α, α), E=4.376, 4.477, 4.578, 4.678, 4778, 4.878, 5.200, 5.500 MeV; calculated σ(θ), energy, width of α cluster resonances using OCM (Orthogonality Condition Model - simplified version of resonating group method) with density dependence and so-called zero radius pseudopotential in NN forces. Compared to data.

doi: 10.3103/S1062873816080128
Citations: PlumX Metrics


2016TO19      Bull.Rus.Acad.Sci.Phys. 80, 871 (2016)

S.Yu.Torilov, N.A.Maltsev, V.Z.Goldberg, K.A.Gridnev, V.I.Zherebchevsky, T.Lonnroth, M.Mutterer, B.G.Novatsky, R.B.Panin, J.M.K.Slotte, Yu.G.Sobolev, W.H.Trzaska, G.P.Tyurin, S.V.Khlebnikov

Decay of quasimolecular states in 26Mg

NUCLEAR REACTIONS 14C(12C, 12C), (12C, 10Be), E*=41-44 MeV; calculated σ, σ(θ) using DWBA with phenomenological optical potentials; deduced parameters, resonance-like structure (already observed in the experiment) near E(cm)≈23.5 MeV, resonant-like structure in 16O+10Be channel at E(cm)≈19.7 MeV, dependence of E* vs angular momentum, prediction of 10+ state.

doi: 10.3103/S1062873816080384
Citations: PlumX Metrics

Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO2338.


2016ZH62      Bull.Rus.Acad.Sci.Phys. 80, 888 (2016)

V.I.Zherebchevsky, I.E.Alekseev, K.A.Gridnev, E.B.Krymov, T.V.Lazareva, N.A.Maltsev, R.B.Panin, N.A.Prokofyev, S.Yu.Torilov, A.I.Shtamburg

The study of the nuclear reactions for the production of antimony isotopes

NUCLEAR REACTIONS Ti(p, x), E=12.5 MeV;48V, 56Fe(p, n), E=12.5 MeV;Sn(p, x)122Sb, E=12.5 MeV;Sn(p, x)124Sb, E=12.5 MeV; measured reaction products; deduced σ. Compared with other data. Ti(p, x)48V, E=5-65 MeV;56Fe(p, n), E=5-45 MeV;Sn(p, x)122Sb, E=5-65 MeV;Sn(p, x)124Sb, E=5-40 MeV;117Sn(p, n);119Sn(p, n), E=0-30 MeV; calculated σ using TALYS and (in some cases also) PRECO-2006.

doi: 10.3103/S1062873816080451
Citations: PlumX Metrics

Data from this article have been entered in the EXFOR database. For more information, access X4 datasetF1298.


2015DY03      Bull.Rus.Acad.Sci.Phys. 79, 858 (2015); Izv.Akad.Nauk RAS, Ser.Fiz 79, 952 (2015)

A.T.D'yachenko, K.A.Gridnev, I.A.Mitropolsky

Features of a nonequilibrium equation of state in heavy-ion collisions at intermediate energies

NUCLEAR REACTIONS 238U(20Ne, X), E=250, 400 MeV/nucleon; calculated σ(θ, E). Comparison with experimental data.

doi: 10.3103/S1062873815070096
Citations: PlumX Metrics


2015GR13      Bull.Rus.Acad.Sci.Phys. 79, 856 (2015); Izv.Akad.Nauk RAS, Ser.Fiz 79, 950 (2015)

K.A.Gridnev, V.V.Dyachkov, A.V.Yushkov

Phenomenon of the diffraction rise of cross sections in the forward angular hemisphere as an effect of nuclear and cluster interference

NUCLEAR REACTIONS 24Mg(α, α), E<250 MeV; calculated σ(θ), the interaction radii of intranuclear multiclusters and the 24Mg nucleus. Black absorbing nucleus and its alpha-cluster components using first-order Bessel functions.

doi: 10.3103/S1062873815070126
Citations: PlumX Metrics


2015GR17      JETP Lett. 102, 321 (2015)

K.A.Gridnev, V.N.Tarasov, D.K.Gridnev, W.Greiner, J.Vinas

Resonance capture of multineutrons by the 88Sr and 27Al nuclei

NUCLEAR STRUCTURE 27Al, 88Sr, Mg; calculated neutron separation energies, rms radii, binding energies. Hartree-Fock method with the Skyrme forces (Ska) taking into account pairing in the Bardeen-Cooper-Schrieffer approximation.

doi: 10.1134/S002136401518006X
Citations: PlumX Metrics


2015TA15      Int.J.Mod.Phys. E24, 1550057 (2015)

V.N.Tarasov, K.A.Gridnev, S.Schramm, V.I.Kuprikov, D.K.Gridnev, D.V.Tarasov, K.S.Godbey, X.Vinas, W.Greiner

Light exotic nuclei with extreme neutron excess and 2 ≤ Z ≤ 8

NUCLEAR STRUCTURE 18He, 40C; calculated neutron and proton rms radii, density distributions. HF + BCS method.

doi: 10.1142/S0218301315500573
Citations: PlumX Metrics


2015TA19      Bull.Rus.Acad.Sci.Phys. 79, 819 (2015); Izv.Akad.Nauk RAS, Ser.Fiz 79, 910 (2015)

V.N.Tarasov, K.A.Gridnev, W.Greiner, V.I.Kuprikov, D.K.Gridnev, D.V.Tarasov, X.Vinas, K.S.Godbey

Investigating the properties of nuclei with extreme neutron excess and 2 ≤ Z ≤ 8

NUCLEAR STRUCTURE 18He, 40Ca; calculated neutron-separation energies; deduced neutron drip line. Hartree-Fock (HF) method with Skyrme forces (SkI2) and allowance for axial deformation and the Bardeen-Cooper-Schrieffer (BCS) pairing approximation.

doi: 10.3103/S1062873815070242
Citations: PlumX Metrics


2015TO13      JETP Lett. 102, 69 (2015)

S.Yu.Torilov, N.A.Maltsev, V.Z.Goldberg, K.A.Gridnev, V.I.Zherebchevsky, T.Lonnroth, B.G.Novatskii, J.M.K.Slotte, Yu.G.Sobolev, W.H.Trzaska, G.P.Tyurin, S.V.Khlebnikov

Quasimolecular states in a reaction with carbon isotopes

NUCLEAR REACTIONS 14C(12C, 10Be), E(cm)=22.1, 23.5, 24.6 MeV; measured reaction products; deduced σ(θ), quasimolecular resonance. Comparison with cluster and DWBA models.

doi: 10.1134/S0021364015140118
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2014FA04      Phys.Atomic Nuclei 77, 13 (2014); Yad.Fiz. 77, 15 (2014)

S.N.Fadeev, K.A.Gridnev

Exchange interaction and elastic 16O + 12C scattering

NUCLEAR REACTIONS 12C(16O, 16O), E=50, 170 MeV; calculated exchange amplitudes, reaction parameters. Comparison with available data.

doi: 10.1134/S1063778813120053
Citations: PlumX Metrics


2014FA11      Bull.Rus.Acad.Sci.Phys. 78, 659 (2014); Izv.Akad.Nauk RAS, Ser.Fiz 78, 877 (2014)

S.N.Fadeev, K.A.Gridnev

Cluster exchange and elastic scattering of heavy ions

NUCLEAR REACTIONS 12C(16O, 12C), E=50, 132 MeV; analyzed available data; deduced the effect of cluster exchange on nuclear interaction potential.

doi: 10.3103/S1062873814070119
Citations: PlumX Metrics


2014GR09      Eur.Phys.J. A 50, 118 (2014)

D.K.Gridnev, S.Schramm, K.A.Gridnev, W.Greiner

Nuclear interactions with modern three-body forces lead to the instability of neutron matter and neutron stars

doi: 10.1140/epja/i2014-14118-6
Citations: PlumX Metrics


2014TA23      Bull.Rus.Acad.Sci.Phys. 78, 569 (2014); Izv.Akad.Nauk RAS, Ser.Fiz 78, 782 (2014)

V.N.Tarasov, K.A.Gridnev, W.Greiner, S.Schramm, D.K.Gridnev, D.V.Tarasov, X.Vinas

Investigation of the properties of nuclei with extreme neutron excess in the vicinity of neutron magic numbers

NUCLEAR STRUCTURE 240Ba, 248Gd, 250Dy, 266Pb; calculated single-particle spectra, J, π. Hartree-Fock method.

doi: 10.3103/S1062873814070235
Citations: PlumX Metrics


2013DY01      J.Phys.(London) G40, 085101 (2013)

A.T.D'yachenko, K.A.Gridnev, W.Greiner

Calculation of heavy ion collisions within the framework of the modified hydrodynamic approach

NUCLEAR REACTIONS 12C, 108Ag, 197Au(12C, X), E<250 MeV; calculated σ(θ, E). Comparison with experimental data.

doi: 10.1088/0954-3899/40/8/085101
Citations: PlumX Metrics


2013DY03      Bull.Rus.Acad.Sci.Phys. 77, 857 (2013); Izv.Akad.Nauk RAS, Ser.Fiz 77, 943 (2013)

A.T.D'yachenko, K.A.Gridnev

Calculation scheme of heavy-ion collisions within the framework of a modified hydrodinamic approach

NUCLEAR REACTIONS 12C(12C, X), E=86 MeV/nucleon; 12C(108Ag, X), E=58 MeV/nucleon; 12C(197Au, X), E=86 MeV/nucleon; calculated σ(θ, E). Comparison with experimental data.

doi: 10.3103/S1062873813070095
Citations: PlumX Metrics


2013GR13      Bull.Rus.Acad.Sci.Phys. 77, 852 (2013); Izv.Akad.Nauk RAS, Ser.Fiz 77, 938 (2013)

K.A.Gridnev, N.A.Maltsev, N.V.Leshakova

Effect of elastic and inelastic cluster transfer on elastic 16O + 12C and 16O + 16O scattering

NUCLEAR REACTIONS 12C(16O, 16O), E=132, 181 MeV; 16O(16O, 16O), E=250 MeV; analyzed available data; calculated σ(θ); deduced importance of channel coupling, binding energy.

doi: 10.3103/S1062873813070113
Citations: PlumX Metrics


2013TA10      Int.J.Mod.Phys. E22, 1350009 (2013)

V.N.Tarasov, K.A.Gridnev, D.K.Gridnev, D.V.Tarasov, S.Schramm, X.Vinas, W.Greiner

Stability peninsulas on the neutron drip line

NUCLEAR STRUCTURE 40O, 74S, 108Fe, 166Zr, 238Xe, 240Ba, 42Ne, 80Ti, 112Zn, 170Ru, 172Pd, 248Gd, 266Pb; calculated binding energy, quadrupole deformation parameter, neutron and proton rms radii; deduced existence of stability peninsula. HF+BCS method with Skyrme forces.

doi: 10.1142/S0218301313500092
Citations: PlumX Metrics


2013TA24      Bull.Rus.Acad.Sci.Phys. 77, 842 (2013); Izv.Akad.Nauk RAS, Ser.Fiz 77, 927 (2013)

V.N.Tarasov, K.A.Gridnev, W.Greiner, S.Schramm, D.K.Gridnev, D.V.Tarasov, X.Vinas

Peninsula of neutron stability of nuclei in the neighborhood of neutron magic number N = 126

NUCLEAR STRUCTURE 164Sr, 166Zr, 168Mo, 170Ru, 172Pd, 178Te, 180Xe, 186Nd, 190Gd; calculated neutron separation energy, quadrupole deformation parameters, neutron and proton rms radii. Hartree-Fock method with Skyrme forces.

doi: 10.3103/S1062873813070241
Citations: PlumX Metrics


2013TO13      Bull.Rus.Acad.Sci.Phys. 77, 849 (2013); Izv.Akad.Nauk RAS, Ser.Fiz 77, 935 (2013)

S.Yu.Torilov, K.A.Gridnev, T.V.Korovitskaya

Cluster states in neutron-rich nuclei

NUCLEAR STRUCTURE 22Ne; calculated dependence of level excitation energy on angular momentum. Comparison with available data.

doi: 10.3103/S1062873813070253
Citations: PlumX Metrics


2012DY03      Bull.Rus.Acad.Sci.Phys. 76, 938 (2012); Izv.Akad.Nauk RAS, Ser.Fiz 76, 1042 (2012)

A.T.Dyachenko, K.A.Gridnev

Hardening of the spectrum of secondary particles formed in heavy ion collisions

NUCLEAR REACTIONS 124Sn(14N, p), E=32 MeV/nucleon; 108Ag(12C, p), E=86 MeV/nucleon; 197Au(12C, p), E=86 MeV/nucleon; 139La(139La, p), E=138 MeV/nucleon; calculated σ(θ, E). Hydrodynamic approach, comparison with experimental data.

doi: 10.3103/S1062873812080084
Citations: PlumX Metrics


2012GR15      Bull.Rus.Acad.Sci.Phys. 76, 871 (2012); Izv.Akad.Nauk RAS, Ser.Fiz 76, 971 (2012)

K.A.Gridnev, W.Greiner, V.N.Tarasov, S.Schramm, D.K.Gridnev, D.V.Tarasov, X.Vinas

Investigating the neutron and proton density distributions in extremely neutron-rich nuclei

NUCLEAR STRUCTURE 16,40O, 90,166Zr, 146,248Gd, 240Ba, 266Pb, 344Rn; calculated neutron and proton density distributions, neutron and proton rms radii. Hartree-Fock method using the Skyrme forces.

doi: 10.3103/S1062873812080138
Citations: PlumX Metrics


2012GR16      Bull.Rus.Acad.Sci.Phys. 76, 934 (2012); Izv.Akad.Nauk RAS, Ser.Fiz 76, 1038 (2012)

K.A.Gridnev, N.A.Maltsev, N.Burtebaev, N.Amangeldy, Sh.Hamada

Role of the inelastic transfer channel in elastic 16O + 12C scattering over a wide range of energies

NUCLEAR REACTIONS 12C(16O, 16O), E<200 MeV; calculated σ(θ), α-cluster transfer. DWBA and CCBA calculations.

doi: 10.3103/S106287381208014X
Citations: PlumX Metrics


2012HA45      J.Phys.:Conf.Ser. 381, 012130 (2012)

S.Hamada, N.Burtebayev, N.Amangeldi, K.A.Gridnev, K.Rusek, Zh.Kerimkulov, N.Maltsev

Phenomenological and semi-microscopic analysis for 16O and 12C elastically scattering on the nucleus of 16O and 12C at Energies near the Coulomb barrier

NUCLEAR REACTIONS 12C(12C, 12C), E=18, 21 MeV;16O(16O, 16O), E=24, 28 MeV; measured E(particle), I(particle, θ); deduced σ(θ); calculated σ(θ) using phenomenological optical potential using SPI-GENDA code and using double-folding potential code FRESCO; deduced potential parameters.

doi: 10.1088/1742-6596/381/1/012130
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0846.


2012TA05      Phys.Atomic Nuclei 75, 17 (2012); Yad.Fiz. 75, 19 (2012)

V.N.Tarasov, K.A.Gridnev, W.Greiner, D.K.Gridnev, V.I.Kuprikov, D.V.Tarasov, X.Vinas

Peninsulas of the neutron stability of nuclei in the vicinity of neutron magic numbers

NUCLEAR STRUCTURE 16,40O, 146,248Gd, 238Xe, 240Ba, 266Pb; calculated chemical potentials, neutron separation energies, quadrupole deformation parameters, neutron and proton density distributions; deduced peninsulas of stable of neutron emission nuclei. Hartee-Fock method.

doi: 10.1134/S1063778812010139
Citations: PlumX Metrics


2012TA14      Bull.Rus.Acad.Sci.Phys. 76, 876 (2012); Izv.Akad.Nauk RAS, Ser.Fiz 76, 976 (2012)

V.N.Tarasov, K.A.Gridnev, W.Greiner, S.Schramm, D.K.Gridnev, D.V.Tarasov, X.Vinas

The peninsula of neutron nuclear stability in the vicinity of N = 258

NUCLEAR STRUCTURE 344,346Rn, 348Th, 350U; calculated one- and two-neutron separation energies, quadrupole deformation parameters; deduced peninsula of stable nuclei.

doi: 10.3103/S1062873812080266
Citations: PlumX Metrics


2012TO10      Bull.Rus.Acad.Sci.Phys. 76, 854 (2012); Izv.Akad.Nauk RAS, Ser.Fiz 76, 954 (2012)

S.Yu.Torilov, K.A.Gridnev, T.V.Korovitskaya

Rotational bands in light neutron-rich nuclei

NUCLEAR STRUCTURE 16,18,20O, 20,22Ne; calculated excitation energies of the rotational bands, radial wave functions. Cluster model calculations.

doi: 10.3103/S1062873812080278
Citations: PlumX Metrics


2011GR11      Bull.Rus.Acad.Sci.Phys. 75, 961 (2011)

K.A.Gridnev, N.Burtebayev, N.A.Maltsev, N.Amangeldi, Sh.Hamada

Investigating the 16O + 12C reaction over a wide range of energies

NUCLEAR REACTIONS 12C(16O, 16O), (16O, 12C), E=28 MeV; measured reaction products; deduced σ(θ). α-cluster transfer, DWBA model, DWUCK5 program.

doi: 10.3103/S1062873811070173
Citations: PlumX Metrics


2011HA23      Nucl.Phys. A859, 29 (2011)

Sh.Hamada, N.Burtebayev, K.A.Gridnev, N.Amangeldi

Analysis of alpha-cluster transfer in 16O+ 12C and 12C+ 16O at energies near Coulomb barrier

NUCLEAR REACTIONS 12C(16O, 12C), E=20, 24, 28 MeV; 16O(12C, 16O), E=21 MeV; measured E(particle), I(particle, θ); deduced σ(θ), optical potential parameters; calculated σ(θ) using optical model DWUCK5 and SPI-GENOA code.

doi: 10.1016/j.nuclphysa.2011.04.006
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetA0886.


2011HA47      Phys.Scr. 84, 045201 (2011)

Sh.Hamada, N.Burtebayev, K.A.Gridnev, N.Amangeldi

Further investigation of the elastic scattering of 16O, 14N and 12C on the nucleus of 27Al at low energies

NUCLEAR REACTIONS 27Al(16O, 16O), (14N, 14N), (12C, 12C), E=1.75 MeV/nucleon; measured reaction products; deduced σ, σ(θ). Comparison with optical model calculations.

doi: 10.1088/0031-8949/84/04/045201
Citations: PlumX Metrics

Data from this article have been entered in the EXFOR database. For more information, access X4 datasetD0828.


2011TO07      JETP Lett. 94, 6 (2011)

S.Yu.Torilov, K.A.Gridnev, V.I.Zherebchevsky, M.Brenner, L.I.Vinogradov, V.Z.Goldberg, T.V.Korovitskaya, T.Lonnroth, N.A.Maltsev, M.Mutterer, B.G.Novatskii, M.Norrby, J.M.K.Slotte, Yu.G.Sobolev, W.H.Trzaska, G.P.Tyurin, S.V.Khlebnikov

Cluster states in the neutron excess nucleus 22Ne

RADIOACTIVITY 22Ne(α) [from 14C(12C, α), E=44 MeV]; measured decay products, Eα, Iα. 22Ne; deduced excited states in 22Ne, energies, J, π, angular correlations for α-decay, α-clusters. Comparison with shell model.

doi: 10.1134/S0021364011130170
Citations: PlumX Metrics


2011TO14      Eur.Phys.J. A 47, 158 (2011)

S.Yu.Torilov, M.Brenner, V.Z.Goldberg, K.A.Gridnev, S.V.Khlebnikov, T.V.Korovitskaya, T.Lonnroth, M.Mutterer, M.Norrby, B.G.Novatski, V.A.Rubchenya, J.M.K.Slotte, Yu.G.Sobolev, W.H.Trzaska, G.P.Tyurin, L.I.Vinogradov, V.I.Zherebchevsky

High-spin states in 22Ne populated in the 14C(12C, α) reaction

NUCLEAR REACTIONS 14C(12C, 2α), E=44 MeV; measured Eα, Iα(θ), αα-coin, αα angular correlations. 22Ne deduced high-spin levels, J, π, moment of inertia, 20,22Ne yrast lines.

doi: 10.1140/epja/i2011-11158-4
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Data from this article have been entered in the XUNDL database. For more information, click here.


2010GR01      Int.J.Mod.Phys. E19, 449 (2010)

K.A.Gridnev, V.N.Tarasov, D.V.Tarasov, D.K.Gridnev, V.V.Pilipenko, W.Greiner

Theoretical prediction of extremely neutron rich Zr and Pb

NUCLEAR STRUCTURE 150,152Zr, 224,226,230,232,266,268,270,272,274,276,278,280,282,284,286,288Pb;calculated one-neutron separation energies, neutron and proton parameters of quadrupole deformation; deduced existence of island of stability around 152Zr; Deformed HF calculations with Skyrme forces.

doi: 10.1142/S0218301310014868
Citations: PlumX Metrics


2010TA25      Bull.Rus.Acad.Sci.Phys. 74, 1559 (2010); Izv.Akad.Nauk RAS, Ser.Fiz 74, 1624 (2010)

V.N.Tarasov, K.A.Gridnev, D.K.Gridnev, V.I.Kuprikov, D.V.Tarasov, W.Greiner, X.Vinyes

Investigating the neutron stability of neutron-rich O, Ar, Kr, and Rn isotopes

NUCLEAR STRUCTURE 40,42O, 38,58,76Ar, 118,120,126,132,134,136,138Kr, 254,256,270,274,282,304,306,308,314Rn; calculated single-particle levels, two-, one-neutron separation energies, quadrupole deformation. Hartee-Fock method with Skyrme forces.

doi: 10.3103/S1062873810110158
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2008GR12      Phys.Part. and Nucl.Lett. 5, 349 (2008); Pisma Zh.Fiz.Elem.Chast.Atom.Yadra No.4 [146], 594 (2008)

K.A.Gridnev, E.E.Rodionova

The role of exchange interaction in elastic scattering of 16O + 16O and 16O + 12C

NUCLEAR REACTIONS 12C(16O, 16O), e=132, 170, 181, 200, 230 MeV; 16O(16O, 16O), E=87.2, 94.8.103.1 MeV; analyzed elastic scattering σ(θ) at backward angles using optical model and DWBA.

doi: 10.1134/S1547477108040031
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2008GR14      Phys.Atomic Nuclei 71, 1262 (2008); Yad.Fiz. 71, 1290 (2008)

K.A.Gridnev, E.E.Rodionova, S.N.Fadeev

Description of elastic scattering in the 16O+16O and 16O+12C systems

NUCLEAR REACTIONS 16O(16O, 16O), 12C(16O, 16O), E=132, 170, 181, 200, 230, 260, 281 MeV; analysed σ(dθ); deduced coefficient of incompressibility of nuclear matter; optical model and distorted wave method.

doi: 10.1134/S106377880807020X
Citations: PlumX Metrics


2008TA20      Phys.Atomic Nuclei 71, 1255 (2008); Yad.Fiz. 71, 1283 (2008)

V.N.Tarasov, D.V.Tarasov, K.A.Gridnev, D.K.Gridnev, W.Greiner, V.G.Kartavenko, V.V.Pilipenko

Properties of lead isotopes in the vicinity of the neutron drip line

NUCLEAR STRUCTURE 266,267,268,269,270,271,272,273,274,275,276,277,278,279,280,281,282,283,284,285,286,287,288Pb; calculated S(1n), S(2n), quadrupole deformation parameters, root mean square radii; HF+BCS, HFB approximation; Skyrme forces.

doi: 10.1134/S1063778808070193
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2008TA22      Bull.Rus.Acad.Sci.Phys. 72, 842 (2008)

V.N.Tarasov, D.V.Tarasov, K.A.Gridnev, D.K.Gridnev, W.Greiner, V.G.Kartavenko, V.I.Kuprikov

Properties of Zr isotopes near the neutron drip line and beyond it

NUCLEAR STRUCTURE Zr; calculated neutron and two-neutron separation energies, mean-square radii, neutron and proton quadrupole deformation parameters of neutron-rich Zr isotopes. Hartree-Fock method with Skyrme forces.

doi: 10.3103/S1062873808060270
Citations: PlumX Metrics


2008TA25      Int.J.Mod.Phys. E17, 1273 (2008)

V.N.Tarasov, D.V.Tarasov, K.A.Gridnev, D.K.Gridnev, V.G.Kartavenko, W.Greiner

Properties of Fe, Ni and Zn isotopes near the drip-lines

NUCLEAR STRUCTURE Fe, Ni, Zn, O; calculated single particle energies, S(1n), S(1p), S(2n), quadrupole deformation parameters, βn, βp, pairing gaps, rms radii; deformed Hartree-Fock method with Skyrme forces; comparison with experimental data and other calculations.

doi: 10.1142/S021830130801043X
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2008TO19      Int.J.Mod.Phys. E17, 2150 (2008)

S.Yu.Torilov, K.A.Gridnev, W.Greiner

New insight on the chain states and Bose-Einstein condensate in light nuclei

doi: 10.1142/S0218301308011252
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2007GR14      Bull.Rus.Acad.Sci.Phys. 71, 789 (2007); Izv.Akad.Nauk RAS, Ser.Fiz. 71, 817 (2007)

K.A.Gridnev, S.N.Fadeev

Applicability of the α-particle folding model to the description of scattering of α-cluster nuclei

doi: 10.3103/S106287380706007X
Citations: PlumX Metrics


2007GR15      Int.J.Mod.Phys. E16, 1059 (2007)

K.A.Gridnev, S.Yu.Torilov, V.G.Kartavenko, W.Greiner

Model of binding alpha-particles and structure of the light nuclei

doi: 10.1142/S0218301307006502
Citations: PlumX Metrics


2007TA19      Bull.Rus.Acad.Sci.Phys. 71, 747 (2007); Izv.Akad.Nauk RAS, Ser.Fiz. 71, 774 (2007)

V.N.Tarasov, D.V.Tarasov, K.A.Gridnev, D.K.Gridnev, V.G.Kartavenko, W.Greiner, V.E.Mitroshin

Neutron-deficient and neutron-rich Fe and Ni isotopes near the drip line

NUCLEAR STRUCTURE Fe, Ni; calculated proton and neutron separation energies using the Hartree-Fock method with Skyrme forces.

doi: 10.3103/S1062873807060019
Citations: PlumX Metrics


2007TO19      Int.J.Mod.Phys. E16, 1757 (2007)

S.Yu.Torilov, K.A.Gridnev, W.Greiner

Chain configurations in light nuclei

NUCLEAR STRUCTURE 12C, 16O, 20Ne, 24Mg; calculated level, J, π for the rotational bands of the chain configurations. Compared results to available data.

doi: 10.1142/S0218301307006927
Citations: PlumX Metrics


2006FA09      Bull.Rus.Acad.Sci.Phys. 70, 725 (2006)

S.N.Fadeev, K.A.Gridnev

Solution of inverse problem for scattering of α-particles with energy Elab = 1370 MeV

NUCLEAR REACTIONS 12C, 40Ca(α, α), E=1370 MeV; analyzed elastic σ(θ); deduced parameters, scattering potential features.


2006GR03      Phys.Atomic Nuclei 69, 1 (2006); Yad.Fiz. 69, 3 (2006)

K.A.Gridnev, D.K.Gridnev, V.G.Kartavenko, V.E.Mitroshin, V.N.Tarasov, D.V.Tarasov, W.Greiner

Specific Features of the Nuclear Drip Line in the Region of Light Nuclei

NUCLEAR STRUCTURE 14,16,18,20,22,24,26,28,30O; calculated one- and two-neutron separation energies, one-proton separation energies. 20,40O; calculated proton and neutron density distributions. 38,40,42,44,46,48,50,52,54,56,58,60,62,64,66,68,70,72,74,76,78,80Ca; calculated one- and two-neutron separation energies. Skyrme-Hartree-Fock approach.

doi: 10.1134/S1063778806010017
Citations: PlumX Metrics


2006GR07      Int.J.Mod.Phys. E15, 673 (2006)

K.A.Gridnev, D.K.Gridnev, V.G.Kartavenko, V.E.Mitroshin, V.N.Tarasov, D.V.Tarasov, W.Greiner

On stability of the neutron-rich oxygen isotopes

NUCLEAR STRUCTURE 14,16,18,20,22,24,26,28,30,32,34,36,38,40,42,44O; calculated proton, neutron, and two-neutron separation energies. 20,40O; calculated proton and neutron distributions. 38,40,42,44,46,48,50,52,54,56,58,60,62,64,66,68,70,72,74,76,78,80Ca; calculated one and two neutron separation energies. Hartree-Fock approach, Skyrme forces.

doi: 10.1142/S0218301306004053
Citations: PlumX Metrics


2006GR15      Phys.Atomic Nuclei 69, 1204 (2006)

K.A.Gridnev, S.Yu.Torilov

Ikeda Diagram within the Model of Binding Alpha Particles

doi: 10.1134/S1063778806070179
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2005GR18      Int.J.Mod.Phys. E14, 635 (2005)

K.A.Gridnev, S.Yu.Torilov, K.D.Gridnev, V.G.Kartavenko, W.Greiner

Model of binding alpha-particles and applications to superheavy elements

NUCLEAR STRUCTURE A=4-264; calculated binding energies, α-particle separation energies. Alpha-cluster model.

doi: 10.1142/S0218301305003387
Citations: PlumX Metrics


2005GR33      Eur.Phys.J. A 25, Supplement 1, 353 (2005)

K.A.Gridnev, D.K.Gridnev, V.G.Kartavenko, V.E.Mitroshin, V.N.Tarasov, D.V.Tarasov, W.Greiner

Stability island near the neutron-rich 40O isotope

NUCLEAR STRUCTURE 14,16,18,20,22,24,26,28,30,32,34,36,38,40,42,44O, 40,42,44Ne, 44,46Mg; calculated neutron separation energies. 40O; calculated quadrupole moments, radius, proton separation energy, deformation parameters. 20,40O; calculated proton and neutron distributions. Hartree-Fock approach with Skyrme forces.

doi: 10.1140/epjad/i2005-06-027-y
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2005GR37      Eur.Phys.J. A 25, Supplement 1, 609 (2005)

K.A.Gridnev, S.Yu.Torilov, D.K.Gridnev, V.G.Kartavenko, W.Greiner, J.Hamilton

Model of binding alpha-particles and applications to superheavy elements

NUCLEAR STRUCTURE Z=6-132; A=12-264; calculated binding energies. α-cluster model.

doi: 10.1140/epjad/i2005-06-020-6
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2005GR38      Part. and Nucl., Lett. 129, 40 (2005)

K.A.Gridnev, D.K.Gridnev, V.G.Kartavenko, V.E.Mitroshin, V.N.Tarasov, D.V.Tarasov, W.Greiner

About Stability of Nuclei with Neutron Excess

NUCLEAR STRUCTURE 4,6,8,10,12He, 14,16,18,20,22,24,26,28,30,32,34,36,38,40,42,44O, 38,40,42,44,46,48,50,52,54,56,58,60,62,64,66,68,70,72,74,76,78,80,82,84,86,88Ca; calculated one- and two-neutron separation energies. Skyrme-Hartree-Fock approach.


2005GR40      Bull.Rus.Acad.Sci.Phys. 69, 775 (2005)

K.A.Gridnev, S.N.Fadeev

Optical potentials for scattering of α-particles with energy Elab = 1370 MeV

NUCLEAR REACTIONS 12C, 40Ca(α, α), E=1370 MeV; analyzed σ(θ); deduced optical potential parameters.


2004GR09      Nucl.Phys. A734, 441 (2004)

K.A.Gridnev, M.Brenner, V.G.Kartavenko, W.Greiner

Anomalous backward scattering and vortexes in light nuclei

doi: 10.1016/j.nuclphysa.2004.01.081
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2004GR31      Bull.Rus.Acad.Sci.Phys. 68, 1247 (2004)

K.A.Gridnev, S.N.Fadeev

Solution of inverse scattering problem for optical potential within quasi-classical approximation

NUCLEAR REACTIONS 16O(16O, 16O), E=350 MeV; calculated optical potential.


2003BR26      Acta Phys.Hung.N.S. 18, 249 (2003)

M.Brenner, K.A.Gridnev, S.E.Belov, K.V.Ershov, K.-M.Kallman, V.V.Lazarev, T.Lonnroth

Search for Alpha-Particle Condensates by Scattering and Transfer of Alpha Particles

NUCLEAR REACTIONS 28Si(α, α), (α, α'), E ≈ 22-30 MeV; analyzed excitation functions. 32S deduced cluster states features.

doi: 10.1556/APH.18.2003.2-4.21
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2003GR21      Nucl.Phys. A722, 409c (2003)

K.A.Gridnev, S.N.Fadeev, V.G.Kartavenko, W.Greiner

Elastic nucleus-nucleus scattering and incompressibility of nuclear matter

NUCLEAR REACTIONS 16O(16O, 16O), E=124, 350 MeV; analyzed σ(θ); deduced nuclear matter incompressibility, other parameters.

doi: 10.1016/S0375-9474(03)01398-8
Citations: PlumX Metrics


2003GR34      Bull.Rus.Acad.Sci.Phys. 67, 100 (2003)

K.A.Gridnev, S.N.Fadeev, V.M.Semenov

Method for calculation of parameters of single-particle resonances

NUCLEAR STRUCTURE 20Ne; calculated α-cluster resonance parameters.


2003GR39      Acta Phys.Hung.N.S. 18, 247 (2003)

K.A.Gridnev, V.G.Kartavenko, M.P.Kartamyshev, W.Greiner

Volume of Surface Cluster Distribution in Light Nuclei?

NUCLEAR STRUCTURE 12C; calculated cluster states transition densities.

doi: 10.1556/APH.18.2003.2-4.20
Citations: PlumX Metrics


2003KA41      Yad.Fiz. 66, 1485 (2003); Phys.Atomic Nuclei 66, 1439 (2003)

V.G.Kartavenko, K.A.Gridnev, J.Maruhn, W.Greiner

Clustering in the Region of Nuclear Surface

doi: 10.1134/1.1601747
Citations: PlumX Metrics


2002AN28      Bull.Rus.Acad.Sci.Phys. 65, 1668 (2002)

G.S.Anagnostatos, J.S.Vaagen, K.A.Gridnev, M.P.Kartamyshev, V.K.Lukyanov

Role of Linear α-Cluster Configuration in Formation of Charge Form Factors of 12C Nucleus

NUCLEAR STRUCTURE 12C; calculated electron scattering form factors; deduced role of linear α-cluster configuration.


2002BR20      Yad.Fiz. 65, 644 (2002); Phys.Atomic Nuclei 65, 612 (2002)

M.W.Brenner, K.A.Gridnev, S.E.Belov, K.W.Ershov, E.Indola

Aspects of Alpha-Particle Scattering and Structure of the Nuclear Surface

NUCLEAR REACTIONS 24Mg, 28Si, 32S, 36Ar(α, α), E ≈ 10-20 MeV; analyzed σ(θ), related data; deduced resonance features, possible α-particle structure at nuclear surface.

doi: 10.1134/1.1471260
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2002GR13      Yad.Fiz. 65, 739 (2002); Phys.Atomic Nuclei 65, 707 (2002)

K.A.Gridnev, V.B.Soubbotin, W.von Oertzen, H.G.Bohlen, X.Vinas

Double-Folding Model Including the Pauli Exclusion Principle

NUCLEAR REACTIONS 16O(16O, X), E=40-750 MeV; calculated nucleus-nucleus potential strength, Pauli blocking effects. Double-folding approach.

doi: 10.1134/1.1471278
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2002GR26      Int.J.Mod.Phys. E11, 359 (2002)

K.A.Gridnev, M.P.Kartamyshev, J.S.Vaagen, V.K.Lukyanov, G.S.Anagnostatos

The Role of Linear Alpha-Cluster Configuration for 12C

NUCLEAR STRUCTURE 12C; calculated electron scattering form factors; deduced role of linear α-cluster configuration.

doi: 10.1142/S0218301302000934
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2002GR32      Bull.Rus.Acad.Sci.Phys. 66, 15 (2002)

K.A.Gridnev, S.N.Fadeev

Regge Poles and Nuclear Rainbow Effect in Elastic Nuclear 16O-16O Scattering

NUCLEAR REACTIONS 16O(16O, 16O), E=350 MeV; analyzed σ(θ); deduced Regge pole contributions. Double-folding potential.


2002GR34      Prog.Theor.Phys.(Kyoto), Suppl. 146, 559 (2002)

K.A.Gridnev, V.G.Kartavenko, S.N.Fadeev, W.Greiner

The 16O + 16O Elastic Scattering and Incompressibility of Nuclear Matter

NUCLEAR REACTIONS 16O(16O, 16O), E=124-350 MeV; analyzed data; deduced potential features.

doi: 10.1143/PTPS.146.559
Citations: PlumX Metrics


2002KA24      Yad.Fiz. 65, 669 (2002); Phys.Atomic Nuclei 65, 637 (2002)

V.G.Kartavenko, K.A.Gridnev, W.Greiner

Nonlinear Evolution of the Axisymmetric Nuclear Surface

doi: 10.1134/1.1471265
Citations: PlumX Metrics


2001GR26      Bull.Rus.Acad.Sci.Phys. 65, 72 (2001)

K.A.Gridnev, S.N.Fadeev

Reconstruction of the Nuclear 16O - 16O Potential on the Basis of the Fixed-Energy Scattering Data

NUCLEAR REACTIONS 16O(16O, 16O), E=250 MeV; analyzed σ(θ); deduced S-matrix parameters.


2001SO14      Phys.Rev. C64, 014601 (2001)

V.B.Soubbotin, W.von Oertzen, X.Vinas, K.A.Gridnev, H.G.Bohlen

Pauli Distorted Double Folded Potential

NUCLEAR REACTIONS 16O(16O, X), E=75, 750 MeV; calculated potentials, intrinsic excitation. 16O(16O, 16O), E=124, 145 MeV; calculated σ(θ). Pauli-distorted double folding model.

doi: 10.1103/PhysRevC.64.014601
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2000GR23      Bull.Rus.Acad.Sci.Phys. 64, 15 (2000)

K.A.Gridnev, M.Brenner, X.Vinas, J.Vaagen, A.E.Antropov, S.E.Belov, K.V.Ershov, V.M.Semenov

Fragmentation of α-Cluster States in the 32S Nucleus

NUCLEAR STRUCTURE 32S; calculated α-cluster states energies, J, π; deduced quasimolecular behaviour. Gross-Pitaevsky equation.


1999GR19      Eur.Phys.J. A 6, 21 (1999)

K.A.Gridnev, V.B.Soubbotin, V.B.Stepukov, S.N.Fadeev, X.Vinas

Deuteron Ground State Properties and Low Energy P-N Scattering 1S0 and 3S1 - 3D1 Channels

NUCLEAR STRUCTURE 2H; calculated binding energy, Q, μ, radius, form factors, structure functions. Nonlocal interactions, quark exchange. Other models compared.

NUCLEAR REACTIONS 1H(n, n), E=low; calculated phase shifts.

doi: 10.1007/s100500050312
Citations: PlumX Metrics


1999GR34      Bull.Rus.Acad.Sci.Phys. 63, 724 (1999)

K.A.Gridnev, T.V.Tarutina

Scattering of Exotic Nuclei in the Glauber Approximation with Noneikonal Corrections

NUCLEAR REACTIONS 1H(11Li, 11Li), E=62-200 MeV; 1H(8He, 8He), E=32-200 MeV; calculated σ(θ). Glauber method, comparison with data.


1999GR35      Bull.Rus.Acad.Sci.Phys. 63, 729 (1999)

K.A.Gridnev, V.B.Subbotin, S.N.Fadeev, X.Vinas

Internuclear Potential in Quasiclassical Approximation

NUCLEAR REACTIONS 40Ca(12C, X), E=45, 51 MeV; 90Zr(12C, X), E=98 MeV; 40Ca(16O, X), E=74.4 MeV; 60Ni(16O, X), E=61.4 MeV; 208Pb(12C, X), E=96 MeV; 208Pb(16O, X), E=86-312.6 MeV; 60Ni, 120Sn, 208Pb(40Ar, X), E=1760 MeV; calculated optical model parameters. Comparison with other calculations.


1998AN25      Bull.Rus.Acad.Sci.Phys. 62, 75 (1998)

A.A.Andrianov, K.A.Gridnev, T.V.Tarutina, M.A.Yugaldin

Elastic Scattering of Protons from Exotic Nuclei in a Modified Glauber Model

NUCLEAR REACTIONS 11Li(p, p), E=62, 75 MeV; 8He(p, p), E=32, 66, 73 MeV; calculated σ(θ). Modified Glauber model.


1998GR21      Bull.Rus.Acad.Sci.Phys. 62, 17 (1998)

K.A.Gridnev, D.K.Gridnev

Elastic Nucleus-Nucleus Scattering and Nuclear Matter Compressibility

NUCLEAR REACTIONS 12,13C, 16O(9Be, 9Be), E=27 MeV; 12C(8Be, 8Be), E=40 MeV; 28Si, 40Ca(6Li, 6Li), E=30.6 MeV; 4He(8He, 8He), E=300 MeV; 7Li(11Li, 11Li), E=300 MeV; calculated σ(θ); deduced optical model parameters, nuclear compressibility constant.


1998KA23      Int.J.Mod.Phys. E7, 287 (1998)

V.G.Kartavenko, K.A.Gridnev, W.Greiner

Nonlinear Effects in Nuclear Cluster Problem

doi: 10.1142/S0218301398000129
Citations: PlumX Metrics


1997GR14      Bull.Rus.Acad.Sci.Phys. 61, 1 (1997)

K.A.Gridnev, V.B.Stepukov, V.B.Subbotin, S.N.Fadeev

Deuteron Properties in a Model with Nonlocal Interaction

NUCLEAR STRUCTURE 2H; calculated binding energy, rms radius, μ, quadrupole moment, D-state probability. New NN-interaction, nucleons quark structure, triplet scattering length discussed.


1997GR15      Bull.Rus.Acad.Sci.Phys. 61, 50 (1997)

K.A.Gridnev, T.V.Tarutina, S.N.Fadeev, V.B.Subbotin

Construction of the αα Interaction Potential from αα Scattering Data

NUCLEAR REACTIONS 4He(α, α), E not given; analyzed scattering data; deduced αα-interaction potential characteristics.


1996GR26      Bull.Rus.Acad.Sci.Phys. 60, 693 (1996)

K.A.Gridnev, W.Greiner, V.G.Kartavenko

Nuclear Multifragmentation and Soliton Theory


1996KA02      J.Phys.(London) G22, L19 (1996)

V.G.Kartavenko, K.A.Gridnev, J.Maruhn, W.Greiner

Vortex Waves on a Nuclear Surface

doi: 10.1088/0954-3899/22/2/003
Citations: PlumX Metrics


1996KA37      Roum.J.Phys. 41, 23 (1996)

V.G.Kartavenko, K.A.Gridnev, J.Maruhn, W.Greiner

On Nonlinear Vortex Waves


1996SO07      J.Phys.(London) G22, 497 (1996)

V.B.Soubbotin, P.B.Danilov, K.A.Gridnev, X.Vinas

A Semiclassical Approach to the Double Folded Ion-Ion Potential

NUCLEAR REACTIONS 40Ca(40Ca, 40Ca), E=225 MeV; calculated σ(θ); deduced potential convergence conditions. Semi-classical extended Thomas-Fermi approximation, Skyrme forces based projectile, target particle kinetic energy densities.

doi: 10.1088/0954-3899/22/4/010
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1995GR20      Yad.Fiz. 58, No 7, 1260 (1995); Phys.Atomic Nuclei 58, 1181 (1995)

K.A.Gridnev, S.N.Fadeev, V.B.Subbotin

Reconstruction of the Local Part of the αα Potential from Data on Low-Energy Scattering

NUCLEAR REACTIONS 4He(α, α), E(cm) ≤ 27 MeV; calculated local part of potential. Orthogonal conditions model, phase shifts data input.


1995GR23      Bull.Rus.Acad.Sci.Phys. 59, 760 (1995)

K.A.Gridnev, V.K.Lukyanov, S.I.Fedotov

Quasiclassical Consideration of Particle Transfer Reactions in High-Energy Approximation

NUCLEAR REACTIONS 27Al, 208Pb(12C, 11B), E=50 MeV/nucleon; 28Si(16O, 17O), E=352 MeV; 208Pb(3He, α), E=47.5 MeV; analyzed σ(θ); deduced classical deviation angle role. High energy approximation, three-dimensional quasiclassical approach.


1995SO13      J.Phys.(London) G21, 947 (1995)

V.B.Soubbotin, X.Vinas, Ch.Roux, P.B.Danilov, K.A.Gridnev

Nuclear Ground-State Properties and Ion-Ion Potentials in Semiclassical Calculations with the Gogny Force

NUCLEAR STRUCTURE 40Ca, 208Pb, 112,114,116,118,120,122,124,132Sn; calculated proton, neutron densities. Hartree-Fock scheme, Gogny force.

NUCLEAR REACTIONS 40Ca(40Ca, 40Ca), E=129.6-240 MeV; analyzed σ(θ), reaction σ. Ion-ion potential from energy density functional, double-folded model approaches, self-consistent semi-classical densities, Gogny force.

doi: 10.1088/0954-3899/21/7/007
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1994GR16      Z.Phys. A349, 269 (1994)

K.A.Gridnev

Nonlinear Approach in the α-Cluster Model

doi: 10.1007/BF01288973
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1994KA55      Int.J.Mod.Phys. E3, 1219 (1994)

V.G.Kartavenko, K.A.Gridnev, W.Greiner

Nuclear Instability and Soliton Theory

doi: 10.1142/S0218301394000383
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1994LU12      Bull.Rus.Acad.Sci.Phys. 58, 19 (1994)

V.K.Lukyanov, K.A.Gridnev, A.V.Embulaev

Quasiclassical Large-Angle Scattering of Nuclear Particles


1992RI02      Nucl.Phys. A542, 61 (1992)

V.Riech, R.Scherwinski, G.Lindstrom, E.Fretwurst, K.Gridnev, P.P.Zarubin, R.Kolalis

Elastic and Inelastic Scattering of 30 MeV α-Particles on Even Isotopes of Palladium

NUCLEAR REACTIONS 104,106,108,110Pd(α, α'), E=30.5 MeV; measured σ(θ); deduced optical-model parameters. 104,106,108,110Pd deduced levels, deformation parameters, isoscalar transition rates. Enriched targets. Coupled-channels calculations, vibrational model.

doi: 10.1016/0375-9474(92)90397-3
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1991SE12      Yad.Fiz. 54, 708 (1991); Sov.J.Nucl.Phys. 54, 429 (1991)

V.M.Semenov, Kh.M.Omar, K.A.Gridnev, E.F.Hefter

(6Li, d) Stripping into Cluster Resonance States

NUCLEAR REACTIONS 12C(6Li, d), E=26, 28 MeV; calculated σ(θ), correlation function W(θ1, θ2). Modified Vincent-Fortune method.


1990GO34      Yad.Fiz. 52, 718 (1990); Sov.J.Nucl.Phys. 52, 460 (1990)

I.G.Golikov, A.V.Golovin, K.A.Gridnev, I.I.Loshchakov

Influence of Noncoplanarity on Information Obtained from Reactions of Knockout of Nucleons and Clusters

NUCLEAR REACTIONS 6Li(p, 2p), E=70 MeV; 16O(p, 2p), E=45 MeV; 14N(p, 2p), E=46 MeV; analyzed σ(θ1, θ2); deduced noncoplanarity role. t-matrix approach.


1989GR25      Yad.Fiz. 50, 990 (1989)

K.A.Gridnev, P.B.Danilov, V.B.Subbotin, M.Barranko, K.Binyas

Building of Ion-Ion Potential by the Energy-Density-Functional Method

NUCLEAR STRUCTURE 16O, 40Ca, 90Zr, 238U; calculated nucleon density profiles. Euler-Lagrange equations, exact solution.


1989GR29      Izv.Akad.Nauk SSSR, Ser.Fiz. 53, 2220 (1989); Bull.Acad.Sci.USSR, Phys.Ser. 53, No.11, 168 (1989)

K.A.Gridnev, P.B.Danilov, V.B.Subbotin, F.B.Malik

Internuclear Potentials in the Method of the Energy-Density Functional

NUCLEAR STRUCTURE 40Ca; calculated proton density, binding energy, rms radius vs density. Energy density functional method, Thomas-Fermi model.

NUCLEAR REACTIONS 40Ca(40Ca, 40Ca), E not given; calculated ion-ion potential vs internuclear distance. Energy density functional method, Thomas-Fermi model.


1989SE06      Phys.Rev. C40, 463 (1989)

V.M.Semjonov, H.M.Omar, K.A.Gridnev, E.F.Hefter

(6Li, d) Stripping into Unbound States

NUCLEAR REACTIONS 12C(6Li, d), E=28, 34 MeV; calculated σ(θ), αd(θ). Stripping to unbound states.

doi: 10.1103/PhysRevC.40.463
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1988GR32      Izv.Akad.Nauk SSSR, Ser.Fiz. 52, 2262 (1988); Bull.Acad.Sci.USSR, Phys.Ser. 52, No.11, 184 (1988)

K.A.Gridnev, V.B.Subbotin, S.N.Fadeev

Role of the Pauli Principle in the Elastic Scattering of Heavy Ions

NUCLEAR REACTIONS 40Ca(α, α), E=22-29 MeV; 12C, 16O, 28Si(6Li, 6Li), E=29.8-30.6 MeV; analyzed σ(θ); deduced Pauli principle role.


1988SE07      Phys.Rev. C38, 765 (1988)

V.M.Semjonov, K.M.Omar, K.A.Gridnev, E.F.Hefter

Angular Correlation Function as a Detector for Two-Step Processes

NUCLEAR REACTIONS 12C(6Li, dα), E=34 MeV; calculated σ(θd, θα) following projectile breakup; deduced reaction mechanism, model parameters.

doi: 10.1103/PhysRevC.38.765
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1987SA55      Nuovo Cim. 98A, 529 (1987)

S.M.Saad, V.B.Subbotin, K.A.Gridnev, E.F.Hefter, V.M.Semjonov

The Orthogonality Condition Model Applied to (α, α) Scattering on 12C and 16O

NUCLEAR STRUCTURE 16O, 20Ne; calculated α-cluster states, Γ. Woods-Saxon potential.

NUCLEAR REACTIONS 12C(α, α), E=3.4-6.5 MeV; 16O(α, α), E=5.2-7.5 MeV; calculated σ(θ). Woods-Saxon potential, α-cluster compound states.

doi: 10.1007/BF02902010
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1986AN18      Nucl.Phys. A455, 561 (1986)

M.V.Andres, M.Lozano, M.Barranco, M.Pi, X.Vinas, K.A.Gridnev

Nuclear Transfer Contribution to the Imaginary Nucleus-Nucleus Potential

NUCLEAR REACTIONS 40Ca(16O, 16O), E=40-139.6 MeV; 40Ca(40Ca, 40Ca), E=129.6-240 MeV; 208Pb(16O, 16O), E=192-1295 MeV; calculated σ(θ). Nucleon transfer role in nucleus-nucleus potential imaginary term.

doi: 10.1016/0375-9474(86)90322-2
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1986GO02      Phys.Rev. C33, 793 (1986)

I.M.Govil, H.W.Fulbright, D.Cline, E.Wesolowski, B.Kotlinski, A.Backlin, K.Gridnev

Multipole Collectivity in 168Er from Inelastic Scattering

NUCLEAR REACTIONS 168Er(α, α), (α, α'), E=36 MeV; 168Er(d, d), (d, d'), E=16 MeV; measured σ(θ), σ(Eα'); deduced optical model parameters. 168Er deduced octupole states, β4, β6 shape components, B(λ). Coupled-channels calculation, collective model form factors.

doi: 10.1103/PhysRevC.33.793
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1986GR24      Izv.Akad.Nauk SSSR, Ser.Fiz. 50, 1980 (1986); Bull.Acad.Sci.USSR, Phys.Ser. 50, No.10, 107 (1986)

K.A.Gridnev, V.B.Subbotin, S.N.Fadeev, N.Z.Darvish, A.G.Ivanov, E.F.Khefter

Applicability of Schrodinger Nonlinear Equation for Interaction of Heavy Ions

NUCLEAR REACTIONS 16O(α, α), E ≤ 30 MeV; calculated interaction constant vs E. Nonlinear Schrodinger equation.


1986GR27      Izv.Akad.Nauk SSSR, Ser.Fiz. 50, 959 (1986); Bull.Acad.Sci.USSR, Phys.Ser. 50, No.5, 127 (1986)

K.A.Gridnev, A.G.Ivanov, S.N.Fadeev, E.F.Khefter

The Soliton Nature of Interference in Coulomb and Nuclear Excitation

NUCLEAR REACTIONS 52Cr, 60Ni(α, α'), E=10-20 MeV; calculated σ(E, θ), θ=25°; deduced interference effects. Coulomb, nuclear interactions.


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