Ivan Mančev scite author profile

Ivan Mančev

5Publications

328Citation Statements Received

140Citation Statements Given

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Affiliations

University of Nis, Stockholm University, Institute of Physics

Publications

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State-selective differential cross sections for single and double electron capture inHe+,2+-Heandp-He
Schöffler
¹
,
Titze
²
,
Schmidt
³

et al. 2009
Phys. Rev. A
74
15
106
1
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Using the cold target recoil ion momentum spectroscopy technique, we have measured state-selective projectile scattering angles for single and double electron captures in collisions of protons and He 1,2+ projectiles with a helium target for incident energies of 60-630 keV/u. We also report theoretical results obtained by means of four-body one-channel distorted-wave models ͑continuum distorted-wave Born final state, continuum distorted-wave Born initial state, and Born distorted wave͒ and find mixed agreement with the measured data.

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Four-body methods for high-energy ion-atom collisions

2008

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Electron capture from helium atoms by fast protons

Mančev

Mergel

Schmidt

2003

J. Phys. B: At. Mol. Opt. Phys.

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The differential and total cross sections for single charge exchange in p + He collisions have been calculated by means of the Born distorted wave (BDW-4B) approximation. The BDW-4B model is a four-body quantum-mechanical distorted-wave theory. The computations of total cross sections are carried out at impact energies ranging from 40 keV to 15 MeV. The differential cross sections are calculated at impact energies covering 50, 100, 150, 200, 293, 300 and 400 keV. The theoretical results obtained for the differential and total cross sections are compared with the available experimental data and good agreement is found.

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Electron correlations in single-electron capture from helium by fast protons andαparticles

Mančev

Milojević

2010

Phys. Rev. A

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Single-electron capture from heliumlike atomic systems by bare projectiles is investigated by means of the four-body boundary-corrected first Born approximation (CB1-4B). The effect of the dynamic electron correlation is explicitly taken into account through the complete perturbation potential. The quantum-mechanical post and prior transition amplitudes for single charge exchange encompassing symmetric and/or asymmetric collisions are derived in terms of two-dimensional real integrals in the case of the prior form and five-dimensional quadratures for the post form. An illustrative computation is performed for single-electron capture from helium by protons and α particles at intermediate and high impact energies. The role of dynamic correlations is examined as a function of increased projectile energy. The validity and utility of the proposed CB1-4B method is critically assessed in comparison with the existing experimental data for total cross sections, and excellent agreement is obtained.

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Electron correlations in single-electron capture from heliumlike atomic systems

Mančev

1999

Phys. Rev. A

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Ivan Mančev

State-selective differential cross sections for single and double electron capture inHe+,2+-Heandp-He
Schöffler
¹
,
Titze
²
,
Schmidt
³

et al. 2009
Phys. Rev. A
74
15
106
1
View full text Add to dashboard Cite

Four-body methods for high-energy ion-atom collisions

Electron capture from helium atoms by fast protons

Electron correlations in single-electron capture from helium by fast protons andαparticles

Electron correlations in single-electron capture from heliumlike atomic systems

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Ivan Mančev

State-selective differential cross sections for single and double electron capture inHe+,2+-Heandp-HeSchöffler1, Titze2, Schmidt3 et al. 2009Phys. Rev. A74151061View full textAdd to dashboardCite

Four-body methods for high-energy ion-atom collisions

Electron capture from helium atoms by fast protons

Electron correlations in single-electron capture from helium by fast protons andαparticles

Electron correlations in single-electron capture from heliumlike atomic systems

Contact Info

Product

Resources

About

State-selective differential cross sections for single and double electron capture inHe+,2+-Heandp-He
Schöffler
¹
,
Titze
²
,
Schmidt
³

et al. 2009
Phys. Rev. A
74
15
106
1
View full text Add to dashboard Cite