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NSR database version of April 27, 2024.

Search: Author = G.Tertychny

Found 23 matches.

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2007TE05      Phys.Lett. B 647, 104 (2007)

G.Tertychny, V.Tselyaev, S.Kamerdzhiev, F.Grummer, S.Krewald, J.Speth, A.Avdeenkov, E.Litvinova

Microscopic description of the low lying and high lying electric dipole strength in stable Ca isotopes

NUCLEAR STRUCTURE 40,44,48Ca; calculated B(E1), electric dipole strength distribution, GDR. Extended theory of finite Fermi systems.

doi: 10.1016/j.physletb.2007.01.069
Citations: PlumX Metrics

2007TE08      Nucl.Phys. A788, 159c (2007)

G.Tertychny, V.Tselyaev, S.Kamerdzhiev, F.Grummer, S.Krewald, J.Speth, E.Litvinova, A.Avdeenkov

Pygmy dipole resonance in stable Ca isotopes

NUCLEAR STRUCTURE 40,44,48Ca; calculated B(E1), electric dipole strength distribution, transition densities. Extended theory of finite Fermi systems using RPA. Comparison with data.

doi: 10.1016/j.nuclphysa.2007.01.077
Citations: PlumX Metrics

2007TS01      Phys.Rev. C 75, 014315 (2007)

V.Tselyaev, J.Speth, F.Grummer, S.Krewald, A.Avdeenkov, E.Litvinova, G.Tertychny

Extended theory of finite Fermi systems: Application to the collective and noncollective E1 strength in 208Pb

NUCLEAR STRUCTURE 208Pb; calculated levels, J, π, E1 strength distribution, transition densities. Extended theory of finite Fermi systems.

doi: 10.1103/PhysRevC.75.014315
Citations: PlumX Metrics

2004KA11      Phys.Rep. 393, 1 (2004)

S.Kamerdzhiev, J.Speth, G.Tertychny

Extended theory of finite Fermi systems: collective vibrations in closed shell nuclei

doi: 10.1016/j.physrep.2003.11.001
Citations: PlumX Metrics

2000KA22      Eur.Phys.J. A 7, 483 (2000)

S.Kamerdzhiev, J.Speth, G.Tertychny

Microscopic Analysis of the Breathing Mode in 40Ca and 58Ni

NUCLEAR REACTIONS 40Ca, 58Ni(α, α'), E=240 MeV; analyzed isoscalar monopole resonance transition densities. Microscopic model.

doi: 10.1007/s100500050421
Citations: PlumX Metrics

1998KA44      Acta Phys.Pol. B29, 2231 (1998)

S.Kamerdzhiev, J.Speth, G.Tertychny

Effects of the Quasiparticle-Phonon Interaction in Magic and Non-Magic Nuclei

NUCLEAR REACTIONS 40Ca, 58Ni(α, α'), E=240 MeV; analyzed E0 resonance strength distributions; deduced quasiparticle-phonon interaction role.

1997KA17      Phys.Rev. C55, 2101 (1997)

S.Kamerdzhiev, J.Lisantti, P.von Neumann-Cosel, A.Richter, G.Tertychny, J.Wambach

Fine Structure of the Giant Isoscalar Quadrupole Resonance in 208Pb Observed in High-Resolution (e, e') and (p, p') Experiments

NUCLEAR REACTIONS 208Pb(p, p'), E=200 MeV; measured proton spectra. 208Pb(e, e'), E=50 MeV; analyzed electron spectra. 208Pb deduced giant isoscalar quadrupole resonance fine structure. RPA modes coupled to surface vibration.

doi: 10.1103/PhysRevC.55.2101
Citations: PlumX Metrics

1997KA57      Nucl.Phys. A624, 328 (1997)

S.Kamerdzhiev, J.Speth, G.Tertychny

Microscopic Description of the E0, E2 and E1 Giant Resonances in 40Ca, 48Ca and 56Ni

NUCLEAR STRUCTURE 40,48Ca, 56Ni; calculated E0, E1, E2 giant resonances, strength functions, E1 transition densities; deduced ground-state correlations role. Continuum RPA, particle-hole-phonon coupling.

doi: 10.1016/S0375-9474(97)00315-1
Citations: PlumX Metrics

1997KA80      Fiz.Elem.Chastits At.Yadra 28, 333 (1997); Phys.Part.Nucl. 28, 134 (1997)

S.P.Kamerdzhiev, G.Ya.Tertychnyi, V.I.Tselyaev

The Method of Time-Ordered Graph Decoupling and Its Application to the Description of Giant Resonances in Magic Nuclei

NUCLEAR STRUCTURE 40,48Ca, 56Ni, 208Pb; calculated giant resonance E, Γ, photoabsorption σ. Time-ordered graph decoupling method.

1995KA35      Phys.Rev.Lett. 74, 3943 (1995)

S.Kamerdzhiev, J.Speth, G.Tertychny

Splitting of the Isoscalar E2 Giant Resonance and Evidence of Low-Lying E0 Strength in 40Ca

NUCLEAR STRUCTURE 40Ca; calculated E2, E0 giant resonances EWSR depletion, E2 transition strength function.

doi: 10.1103/PhysRevLett.74.3943
Citations: PlumX Metrics

1994KA04      Phys.Lett. 321B, 6 (1994)

S.Kamerdzhiev, O.Rosso, G.Tertychnyi, W.Unkelbach

On the Nature of Low-Lying 1+ Levels in Spherical Open-Shell Nuclei

NUCLEAR STRUCTURE 96Zr; calculated levels, B(λ); deduced ground state correlations role. RPA, quasipaticle RPA, 1p1h coupling to phonon ground state correlations.

doi: 10.1016/0370-2693(94)90319-0
Citations: PlumX Metrics

1994KA10      Nucl.Phys. A569, 313c (1994)

S.Kamerdzhiev, G.Tertychnyi, J.Speth

Theoretical Description of Giant Resonances in Stable and Unstable Magic Nuclei

NUCLEAR REACTIONS 208Pb(γ, X), E ≤ 35 MeV; calculated photoabsorption σ(E). Microscopic approach, Green function method, RPA with complex configuration.

NUCLEAR STRUCTURE 40Ca, 56,78Ni, 100,132Sn, 208Pb; calculated diverse giant resonance excitation functions, B(λ). Microscopic approach, Green function method, RPA with complex configuration.

doi: 10.1016/0375-9474(94)90122-8
Citations: PlumX Metrics

1994KA28      Nucl.Phys. A577, 641 (1994)

S.Kamerdzhiev, G.Tertychny, J.Speth, J.Wambach

The Role of 1p1h (x) Phonon Ground-State Correlations in the Isoscalar E0 Excitations of Magic Nuclei

NUCLEAR STRUCTURE 40,48Ca, 208Pb, 56Ni; calculated isoscalar E0 transition strength functions. Extended RPA, continuum effects.

doi: 10.1016/0375-9474(94)90937-7
Citations: PlumX Metrics

1993KA11      Nucl.Phys. A555, 90 (1993)

S.Kamerdzhiev, J.Speth, G.Tertychnyi, V.Tselyaev

Microscopic Description of the Giant Electric-Dipole Resonance in Magic Nuclei

NUCLEAR REACTIONS 40,48Ca(γ, X), E=10-32 MeV; 208Pb(γ, X), E ≈ 6-20 MeV; calculated photoabsorption σ(E). 40,48Ca, 208Pb deduced E1 resonances integral characteristics, giant resonances. Extended RPA approach.

doi: 10.1016/0375-9474(93)90315-O
Citations: PlumX Metrics

1993KA25      Z.Phys. A346, 253 (1993)

S.Kamerdzhiev, J.Speth, G.Tertychnyi, J.Wambach

M1 Resonances in Unstable Magic Nuclei

NUCLEAR STRUCTURE 48Ca, 208Pb, 56,78Ni, 100,132Sn; calculated M1 transition strength distributions, B(M1). Microscopic approach, RPA configurations, single particle continuum.

doi: 10.1007/BF01292513
Citations: PlumX Metrics

1992KA30      Phys.Lett. 287B, 293 (1992)

S.Kamerdzhiev, G.Tertychnyi, W.Unkelbach

Giant Dipole Resonance in 208Pb within the Approach Including 1p1h (x) Phonon Configurations and Continuum

NUCLEAR STRUCTURE 208Pb; calculated E1 giant resonances, Γ, photoabsorption σ(E). RPA, 1p1h plus phonon configurations, continuum.

NUCLEAR REACTIONS 208Pb(γ, X), E=6-20 MeV; calculated giant resonances, E1 photoabsorption σ(E). RPA, 1p1h plus phonon configurations, continuum.

doi: 10.1016/0370-2693(92)90985-D
Citations: PlumX Metrics

1991KA26      Phys.Lett. 267B, 12 (1991)

S.P.Kamerdzhiev, G.Ya.Tertychnyi, V.I.Tselyaev

Calculations of E1 Resonances in 40Ca, 48Ca and 208Pb Including 1p1h(x) Phonon Configurations

NUCLEAR STRUCTURE 40,48Ca, 208Pb; calculated E1 resonances, Γ, sum rule strength. Microscopic model, (1px1h)+phonon configuration.

NUCLEAR REACTIONS 40,48Ca(γ, X), E=8-32 MeV; 208Pb(γ, X), E ≈ 6-20 MeV; calculated absorption σ(E). Microscopic model, (1px1h)+phonon configuration.

doi: 10.1016/0370-2693(91)90515-R
Citations: PlumX Metrics

1991KA30      Pisma Zh.Eksp.Teor.Fiz. 53, 393 (1991); JETP Lett.(USSR) 53, 412 (1991)

S.P.Kamerdzhiev, G.Ya.Tertychnyi

Calculations of the E1 Resonance in 48Ca in the 1P1H + 2P2H + Continuum Approximation

NUCLEAR REACTIONS 48Ca(γ, X), E ≈ 12-26 MeV; calculated double photoabsorption σ(E). 48Ca deduced E1 resonance, Γ. Finite Fermi system theory, RPA.

1980TE03      Phys.Lett. 93B, 7 (1980)

G.Y.Tertychny, E.L.Yadrovsky

On the Influence of Isovector Monopole States on the Isospin Impurity And Spreading Width of IAS 0+ in 208Bi

NUCLEAR STRUCTURE 208Bi; calculated isospin mixing of the IAS, T=1 monopole states; deduced IAS decay enhancement, reduction of external spreading width.

doi: 10.1016/0370-2693(80)90083-0
Citations: PlumX Metrics

1979RA35      Izv.Akad.Nauk SSSR, Ser.Fiz. 43, 2338 (1979); Bull.Acad.Sci.USSR, Phys.Ser. 43, No.11, 82 (1979)

V.N.Razuvaev, G.Ya.Tertychnyi, E.L.Yadrovskii

The Effects of the Breakdown of the Purity of the Isospin of the Isobar-Analog E1 and E2 Resonances in the Photoprotonic Reaction on 208Pb

NUCLEAR REACTIONS 208Pb(e, e'p), E=25-40 MeV; calculated σ(θp); 208Pb(γ, p), E=24-29 MeV; calculated σ. 208Pb deduced IAS, Γp, isospin mixing effects. Shell model, R-matrix theory.

1976GY01      ATOMKI Kozlem. 18, 31 (1976)

B.Gyarmati, T.Vertse, G.Y.Tertychny, E.L.Yadrovsky

On the Complex Optical Potential in the Lane-Model

NUCLEAR STRUCTURE 209Bi; calculated IAR in microscopic model, Lane model.

1973TE03      Yad.Fiz. 17, 287 (1973); Sov.J.Nucl.Phys. 17, 146 (1973)

G.Y.Tertychnyi, Y.N.Shubin

Angular and Energy Distributions of Neutrons Scattered Inelastically by Fe and Ni Nuclei

NUCLEAR REACTIONS Fe, Ni(n, n'), E=14 MeV; calculated σ(En').

1973TE08      Yad.Fiz. 18, 39 (1973); Sov.J.Nucl.Phys. 18, 21 (1974)

G.Y.Tertychnyi, E.L.Yadrovskii

Spectra and Angular Distributions of Photoprotons from the Decay of Dipole Isobar-Analog States

NUCLEAR REACTIONS 64Ni, 114,124Sn(γ, p); measured nothing, analyzed σ(Ep, θ).

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Note: The following list of authors and aliases matches the search parameter G.Tertychny: , G.Y.TERTYCHNY, G.Y.TERTYCHNYI