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Search: Author = V.E.Starodubsky

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1995ST16      J.Phys.(London) G21, 803 (1995)

V.E.Starodubsky, N.Hintz

Test of Hartree-Fock-RPA Neutron and Proton Transition Densities for ^206,208Pb(p, p') at 650 MeV

NUCLEAR REACTIONS ^206,208Pb(polarized p, p'), E=650 MeV; measured σ(θ), A(θ). Hartree-Fock-RPA transition densities tested, impulse approximation calculations.

doi: 10.1088/0954-3899/21/6/009
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetC1033.

1994ST03      Phys.Rev. C49, 2118 (1994)

V.E.Starodubsky, N.M.Hintz

Extraction of Neutron Densities from Elastic Proton Scattering by ^206,207,208Pb at 650 MeV

NUCLEAR REACTIONS ⁴⁰Ca(polarized p, p), E=650 MeV; analyzed σ(θ), analyzing power, spin rotation parameter vs θ; deduced t-matrix. ^206,207,208Pb(polarized p, p), E=650 MeV; analyzed σ(θ), analyzing power data. ^206,207,208Pb deduced neutron densities differences.

doi: 10.1103/PhysRevC.49.2118
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1994ST07      Phys.Rev. C48, 2479 (1994)

V.E.Starodubsky, N.M.Hintz

Constraints on the Nuclear Compressibility from Analysis of the Breathing Mode and Density Differences of Lead Isotopes

NUCLEAR STRUCTURE ^208,206,207Pb; calculated charge, neutron densities differences; deduced constraints on nuclear compressibility parameter. Skyrme-type interactions.

doi: 10.1103/PhysRevC.48.2479
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1992LE09      J.Phys.(London) G18, 1177 (1992)

V.S.Letokhov, V.I.Mishin, S.K.Sekatsky, V.N.Fedoseyev, G.D.Alkhazov, A.E.Barzakh, V.P.Denisov, V.E.Starodubsky

Laser Spectroscopic Studies of Nuclei with Neutron Number N < 82 (Eu, Sm and Nd Isotopes)

RADIOACTIVITY ^{135,137,139,141}Nd, ^{139,141,141m,143,145}Sm; measured hfs; deduced parameters a, b, quadrupole moments. ^{132,134,135,136,137,138,139,140,141}Nd, ^{138,139,140,141,141m,142,143,145}Sm, ^{138,139,140,141,142,143,144,145}Eu; measured isotope shifts; deduced mean square charge radii. Resonance ionization spectroscopy.

NUCLEAR MOMENTS ¹⁴²Nd, ¹⁴⁴Sm; measured isotope shifts; deduced mean square charge radii. Resonance ionization spectroscopy.

doi: 10.1088/0954-3899/18/7/008
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1992ST01      Phys.Lett. 276B, 269 (1992)

V.E.Starodubsky, M.V.Zverev

Pairing in Nuclei Near the Proton-Drip Line

NUCLEAR STRUCTURE ¹²⁴Sn, ²⁰²Pb; A=142-168; ^151,153Eu, ^167,165Re; calculated odd-even mass differences; deduced effective pairing force density dependence role in increased proton pairing near drip line. Quasiparticle lagrangian method.

doi: 10.1016/0370-2693(92)90316-V
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1991ZV01      Yad.Fiz. 54, 676 (1991); Sov.J.Nucl.Phys. 54, 410 (1991)

M.V.Zverev, V.E.Starodubsky

Features of the Pairing Properties of Nuclei Near the Boundary of Proton Stability

NUCLEAR STRUCTURE Z=62-76; N=88-92; calculated neutron, proton chemical potentials, quadrupole moments, rms radii, total binding energies. ^{152,154,156,158,160,162,164,166,168,170}Er; calculated neutron, proton chemical potentials, quadrupole moments, gap parameters. Generalized quasi-classical Lagrangian method.

1990VO13      Yad.Fiz. 52, 1339 (1990); Sov.J.Nucl.Phys. 52, 848 (1990)

S.S.Volkov, A.A.Vorobev, O.A.Domchenkov, Yu.V.Dotsenko, N.P.Kuropatkin, A.A.Lobodenko, O.V.Miklukho, V.N.Nikulin, V.E.Starodubsky, A.Yu.Tsaregorotsev, Zh.A.Chakhalyan, Yu.A.Shcheglov

Quasielastic Knockout (p, 2p) and (p, np) Reactions at 1.0 GeV and Deformation Properties of d-Shell Nuclei

NUCLEAR REACTIONS ^24,25,26Mg, ²⁷Al, ³²S, ⁴⁰Ca(p, 2p), (p, np), E=1 GeV; measured σ(θ₁, θ₂, E₁). ^24,25,26Mg, ²⁷Al, ³²S deduced deformation parameters. Hartree-Fock calculations, Skyrme potential.

1989BA12      Yad.Fiz. 49, 39 (1989)

A.E.Barzakh, V.E.Starodubsky

Effects of Collective Motion on Isotopic Dependence of Nuclear Charge Radii

NUCLEAR STRUCTURE ^136,138Sm, ^{140,142,144,146}Sm; analyzed charge radii; deduced collectivity role in isotopic dependence.

1989BA43      Yad.Fiz. 49, 1588 (1989)

A.E.Barzakh, V.E.Starodubsky

Description of Deformed Nuclei in the Quasiparticle Lagrange Method

NUCLEAR STRUCTURE ^{158,160,162,164,166,170,172,174,176}Yb, ^{155,157,161,165}Ho; calculated quadrupole moments, rms charge radii. Quasiparticle Lagrange method.

1989SA42      Fiz.Elem.Chastits At.Yadra 20, 293 (1989); Sov.J.Part.Nucl 20, 123 (1989)

E.E.Sapershtein, V.E.Starodubsky

Traditional Nuclear Physics as a Test of Nuclear Exotics

NUCLEAR REACTIONS ^40,42,44,48Ca, ⁴⁸Ti(p, p), E=1.04 GeV; ²⁰⁸Pb(p, p), E=1 GeV; ⁵⁸Ni, ⁹⁰Zr, ^116,124Sn(p, p), E=0.8 GeV; ²⁰⁸Pb(e, e), E=502 MeV; ⁴⁰Ca(e, e), E=400 MeV; ^116,124Sn(e, e), E=500 MeV; analyzed σ(θ); deduced nucleon swelling restrictions.

1988AL04      Nucl.Phys. A477, 37 (1988)

G.D.Alkhazov, A.E.Barzakh, I.Ya.Chubukov, V.P.Denisov, V.S.Ivanov, V.N.Panteleev, V.E.Starodubsky, N.B.Buyanov, M.N.Fedoseyev, V.S.Letokhov, V.I.Mishin, S.K.Sekatskii

Nuclear Electromagnetic Moments and Charge Radii of Deformed Thulium Isotopes with the Mass Numbers A = 157-172

NUCLEAR MOMENTS ¹⁶⁹Tm; measured hfs, isotope shifts; deduced hyperfine constants. ¹⁶⁹Tm deduced μ, quadrupole moments, rms charge radius. Resonance ionization spectroscopy.

RADIOACTIVITY ^{157,158,159,160,161,162,163,164,165,166,167,168,170,171,172}Tm; measured hfs, isotopes shifts; deduced hyperfine constants. ^{157,158,159,160,161,162,163,164,165,166,167,168,170,171,172}Tm deduced μ, quadrupole moments, rms charge radii. Resonance ionization spectroscopy.

doi: 10.1016/0375-9474(88)90359-4
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1987AN05      Nucl.Phys. A468, 429 (1987)

V.V.Anisovich, A.V.Sarantsev, V.E.Starodubsky

Description of Composite Systems in the Dispersion Relation Technique and the Problem of Contribution of Non-Nucleonic Degrees of Freedom to the EMC Effect

NUCLEAR STRUCTURE ⁵⁶Fe; calculated free, bound nucleon structure function ratio. EMC effect.

doi: 10.1016/0375-9474(87)90177-1
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1987AN16      Yad.Fiz. 45, 1636 (1987); Sov.J.Nucl.Phys. 45, 1014 (1987)

V.V.Anisovich, A.V.Sarantsev, V.E.Starodubsky

Contribution of Nucleonic Degrees of Freedom to the EMC Effect

NUCLEAR STRUCTURE ³H, ³He; calculated structure function ratios. Dispersion intergration method.

1987BA07      Yad.Fiz. 45, 45 (1987)

A.E.Barzakh, V.E.Starodubsky

Hartree-Fock Description of Deformed Thulium Isotopes

NUCLEAR STRUCTURE ^{157,158,159,160,161,162,163,164,165,166,167,168,169}Tm; calculated ground state quadrupole, magnetic moments, charge radii, binding energies. Hartree-Fock theory.

1987SA45      Yad.Fiz. 46, 69 (1987)

E.E.Saperstein, V.E.Starodubsky

Glauber Theory for Elastic Scattering of Fast Protons from Nuclei and the Nucleon Swelling Hypothesis

NUCLEAR REACTIONS ^40,42,44,48Ca, ⁴⁸Ti, ²⁰⁸Pb(p, p), E=0.4-1.04 GeV; calculated σ(θ); deduced nucleon size constraint in nuclear medium. Glauber approach, quasiparticle Lagrange method.

1986BI01      Phys.Lett. 166B, 119 (1986)

B.L.Birbrair, A.B.Gridnev, M.B.Zhalov, E.M.Levin, V.E.Starodubski

Single-Particle Contribution to the EMC Effect

NUCLEAR STRUCTURE ⁴He, ¹²C, ⁹Be, ²⁷Al, ⁴⁰Ca, ¹⁰⁸Ag, ⁵⁶Fe, ¹⁹⁷Au; calculated structure function relative to d; deduced EMC effect single particle contribution.

doi: 10.1016/0370-2693(86)91360-2
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1985AL08      Nucl.Phys. A438, 482 (1985)

G.D.Alkhazov, A.A.Bykov, V.D.Wittmann, V.E.Starodubsky, S.Yu.Orlov, V.N.Panteleyev, A.G.Polyakov, V.K.Tarasov

Gamow-Teller Resonance in β⁺ Decay of ^147mDy and Spin-Isospin Current Renormalization

RADIOACTIVITY ^147mDy(β⁺); measured Iγ(E), T_1/2, Q(EC), β⁺γ-coin; deduced S(β), (G(A)/g(v)). RPA calculation comparision.

doi: 10.1016/0375-9474(85)90387-2
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1985AL30      Yad.Fiz. 42, 1313 (1985)

G.D.Alkhazov, A.A.Bykov, V.D.Wittmann, F.V.Moroz, S.Yu.Orlov, V.E.Starodubsky, V.K.Tarasov

Quenching of Spin-Isospin Excitations in β⁺ Decay of ^147m,149,151Dy

RADIOACTIVITY ^147m,149,151Dy(β⁺) [from Ta(p, X), E=1 GeV]; measured β-strength function; deduced Q(EC), log ft. ^147,149,151Tb deduced Gamow-Teller resonances, transition strength quenching. Self-consistent Hartree-Fock plus RPA approach.

1985DO16      Yad.Fiz. 42, 107 (1985)

Yu.V.Dotsenko, V.E.Starodubsky

Deformation Structure of Light Nuclei from the Reactions (p, 2p) and (p, pn)

NUCLEAR STRUCTURE ^6,7Li, ⁹Be, ^10,11B, ¹²C; calculated separation energies, rms radii, neutron, proton quadrupole moments, μ. Skyrme interaction generated deformed nuclear potential.

NUCLEAR REACTIONS ^6,7Li, ⁹Be, ^10,11B, ¹²C(p, 2p), (p, np), E=1 GeV; measured energy spectra; deduced potential parameters. Unified nuclear model.

1985ST15      Yad.Fiz. 42, 78 (1985)

V.E.Starodubsky

Transition Densities of Isovector Multipole Resonances

NUCLEAR STRUCTURE ^40,48Ca, ⁹⁰Zr, ¹²⁰Sn, ²⁰⁸Pb; calculated isovector monopole resonances, strength function, B(λ), transition densities; deduced surface, volume modes coexistence. Hartree-Fock plus RPA, Skyrme interactions.

1982KA19      Yad.Fiz. 35, 1365 (1982)

F.F.Karpeshin, V.E.Starodubsky

The Microscopic Description of Muonic Conversion in Magic Nuclei

ATOMIC PHYSICS, Mesic-Atoms ²⁰⁸Pb, ⁹⁰Zr; calculated ICC for muonic conversion, conversion widths for giant multipole resonance decay. RPA transition densities, Skyrme interactions.

1981ST07      Yad.Fiz. 33, 675 (1981)

V.E.Starodubsky

Excitation of Giant Multipole Nuclear Resonances in Electron and Proton Scattering

NUCLEAR STRUCTURE ^40,48Ca, ⁵⁸Ni, ⁹⁰Zr, ²⁰⁸Pb; calculated giant multipole resonances, reduced transition probabilities, transition densities. Self-consistent RPA, Skyrme interactions.

NUCLEAR REACTIONS ^40,48Ca(e, e'), E=250 MeV; ⁵⁸Ni(e, e'), E=200 MeV; ²⁰⁸Pb(e, e'), E=183 MeV; calculated σ(E(e'), θ), form factors; ^40,48Ca, ⁵⁸Ni, ⁹⁰Zr, ²⁰⁸Pb(p, p'), (p, X), E=1 GeV; calculated σ(θ); deduced giant multipole resonance excitation. Self-consistent RPA, Skyrme interaction, DWBA calculations.

1979SA25      Yad.Fiz. 30, 70 (1979); Sov.J.Nucl.Phys. 30, 36 (1979)

E.E.Sapershtein, V.E.Starodubskii

Elastic and Inelastic Scattering of Fast Protons and Electrons by Nuclei and Self-Consistent Calculations of Nuclear Densities

NUCLEAR REACTIONS ^40,48Ca, ⁹⁰Zr, ²⁰⁸Pb(p, p'), E=1-1.04 GeV; ^40,48Ca, ⁹⁰Zr, ²⁰⁸Pb(e, e'), E=183-248 MeV; calculated σ(θ). Self-consistent nucleon densities.

1979ST07      Yad.Fiz. 29, 884 (1979); Sov.J.Nucl.Phys. 29, 454 (1979)

V.E.Starodubskii

Verification of Self-Consistent RPA Theory in Scattering of Fast Particles by Nuclei

NUCLEAR REACTIONS ²⁰⁸Pb(e, e), E=248 MeV; ²⁰⁸Pb(p, p), (p, p'), E=1.04 GeV; ⁹⁰Zr(p, p), E=1 GeV; ⁹⁰Zr(e, e), E=209 MeV; ⁹⁰Zr(e, e'), E=58 MeV; ⁴⁰Ca(e, e), (e, e'), E=250 MeV; ⁴⁰Ca(p, p), (p, p'), E=1.044 GeV; calculated σ(θ). ²⁰⁸Pb(e, e'), E=183 MeV; calculated form factors. RPA, Hartree-Fock ground state, Skyrme interaction, Green function technique.

NUCLEAR STRUCTURE ^40,48Ca, ⁹⁰Zr, ²⁰⁸Pb; calculated static, transition densities for ground, low-lying collective states.

1979ST12      Yad.Fiz. 30, 55 (1979); Sov.J.Nucl.Phys. 30, 28 (1979)

V.E.Starodubskii, V.R.Shaginyan

Structure of Single-Particle Nuclear Densities in Hartree-Fock Theory And from Model-Independent Analysis

NUCLEAR REACTIONS ²⁸Si, ^32,34S, ^40,42,44,48Ca, ^58,60,62,64Ni, ⁹⁰Zr, ²⁰⁸Pb(p, p), E=1 GeV; calculated binding energies, rms radii, densities, σ(θ). ²⁸Si, ^32,34S, ^40,42,44,48Ca, ^58,60,62,64Ni, ⁹⁰Zr, ²⁰⁸Pb deduced nuclear matter density. Friar-Negle method, Hartree-Fock theory with Skyrme interaction.

1978ST14      Yad.Fiz. 27, 1521 (1978); Sov.J.Nucl.Phys. 27, 802 (1978)

V.E.Starodubskii, V.R.Shaginyan

Hartree-Fock Densities and Scattering of Fast Particles by Nuclei

NUCLEAR STRUCTURE ^40,42,44,48Ca, ⁴⁸Ti; calculated ground state properties, static, transition densities. Hartree-Fock calculations.

NUCLEAR REACTIONS ^40,42,44,48Ca, ⁴⁸Ti(p, p), (p, p'), E=1.04 GeV; calculated σ(θ). ^40,42,44,48Ca, Ti(e, e), (e, e'), E=25o MeV; calculated form factors, σ(θ). Hartree-Fock approach, Skyrme force.

1977ST11      Yad.Fiz. 25, 306 (1977); Sov.J.Nucl.Phys. 25, 167 (1977)

V.E.Starodubskii, V.R.Shaginyan, Yu.I.Sholokhov

Combined Eikonal Description of the Scattering of Fast Protons and Electrons and the Nuclear Densities

NUCLEAR REACTIONS ²⁰⁸Pb(e, e), (e, e'), (p, p), (p, p'); calculated σ at high energies. Eikonal method.

1975AL28      Yad.Fiz. 22, 902 (1975); Sov.J.Nucl.Phys. 22, 469 (1975)

G.D.Alkhazov, S.L.Belostotskii, A.A.Vorobev, V.T.Grachev, O.A.Domchenkov, Y.V.Dotsenko, N.P.Kuropatkin, V.E.Starodubskii, M.A.Shuvaev

Scattering of 1-GeV Protons on ²⁸Si, ³²S, and ³⁴S

NUCLEAR REACTIONS ²⁸Si, ^32,34S(p, p), (p, p'), E=1 GeV; measured σ. Diffractional multiple scattering theory analysis.

Data from this article have been entered in the EXFOR database. For more information, access X4 datasetO1255.

1974ST02      Nucl.Phys. A219, 525 (1974)

V.E.Starodubsky

The Excitation of Collective Nuclear States by High Energy Particles

NUCLEAR REACTIONS ¹²C, ³⁹K, ⁴⁰Ca, ⁵⁸Ni, ²⁰⁸Pb(p, p'), E=1 GeV; calculated σ for collective states.

doi: 10.1016/0375-9474(74)90115-8
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1973ER19      Yad.Fiz. 18, 801 (1973); Sov.J.Nucl.Phys. 18, 412 (1974)

K.N.Ermakov, M.B.Zhalov, V.E.Starodubskii

Effect of Nucleon Correlations in the Reaction C¹²(p, 2p)B¹¹ within the Framework of the Glauber Theory

NUCLEAR REACTIONS ¹²C(p, 2p), E=0.5, 1.0 GeV; calculated σ, correlation effects.

1973ST30      Pisma Zh.Eksp.Teor.Fiz. 17, 678 (1973); JETP Lett.(USSR) 17, 470 (1973)

V.E.Starodubskii

Scattering of High Energy Protons by ⁵⁸Ni and ²⁰⁸Pb Nuclei

NUCLEAR REACTIONS ⁵⁸Ni, ²⁰⁸Pb(p, p), (p, p'), E=1 GeV; analyzed σ(θ) data.

1972AL58      Phys.Lett. B 42, 121 (1972)

G.D.Alkhazov, G.M.Amalsky, S.L.Belostotsky, A.A.Vorobyov, O.A.Domchenkov, Yu.V.Dotsenko, V.E.Starodubsky

Differential cross sections of 1 GeV proton scattering from ¹²C

NUCLEAR REACTIONS ¹²C(p, p), ¹²C(p, p'), E=1 GeV; measured products, ¹²C; deduced σ(θ). Data were imported from EXFOR entry F0690.

doi: 10.1016/0370-2693(72)90733-2
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetF0690.

1972ST35      Phys.Lett. 42B, 319 (1972)

V.E.Starodubsky, O.A.Domchenkov

Elastic and Inelastic Scattering of 1 GeV Protons by ¹²C

NUCLEAR REACTIONS ¹²C(p, p), (p, p'), E=1 GeV; calculated σ(θ). Glauber theory.

doi: 10.1016/0370-2693(72)90497-2
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Note: The following list of authors and aliases matches the search parameter V.E.Starodubsky: V.E.STARODUBSKI, V.E.STARODUBSKII, V.E.STARODUBSKY