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Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines. / Maltsev, I.A.; Deyneka, G.B.; Tupitsyn, I.I.; Shabaev, V.M.; Kozhedub, Y.S.; Plunien, G.; Stöhlker, T.

Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines. IOP Publishing Ltd., 2013. p. 014056_1-3.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Harvard

Maltsev, IA, Deyneka, GB, Tupitsyn, II, Shabaev, VM, Kozhedub, YS, Plunien, G & Stöhlker, T 2013, Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines. in Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines. IOP Publishing Ltd., pp. 014056_1-3. https://doi.org/10.1088/0031-8949/2013/T156/014056

APA

Maltsev, I. A., Deyneka, G. B., Tupitsyn, I. I., Shabaev, V. M., Kozhedub, Y. S., Plunien, G., & Stöhlker, T. (2013). Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines. In Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines (pp. 014056_1-3). IOP Publishing Ltd.. https://doi.org/10.1088/0031-8949/2013/T156/014056

Vancouver

Maltsev IA, Deyneka GB, Tupitsyn II, Shabaev VM, Kozhedub YS, Plunien G et al. Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines. In Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines. IOP Publishing Ltd. 2013. p. 014056_1-3 https://doi.org/10.1088/0031-8949/2013/T156/014056

Author

Maltsev, I.A. ; Deyneka, G.B. ; Tupitsyn, I.I. ; Shabaev, V.M. ; Kozhedub, Y.S. ; Plunien, G. ; Stöhlker, T. / Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines. Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines. IOP Publishing Ltd., 2013. pp. 014056_1-3

BibTeX

@inproceedings{ae808aa494254fed8fc84a4d6627bd17,
title = "Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines",
abstract = "A new approach for solving the time-dependent two-center Dirac equation is presented. The method is based on using the finite basis set of cubic Hermite splines on a two-dimensional lattice. The Dirac equation is treated in the rotating reference frame. The collision of U92+ (as a projectile) and U91+ (as a target) is considered at energy E lab = 6 MeV u−1. The charge transfer probabilities are calculated for different values of the impact parameter. The results obtained are compared with previous calculations (Tupitsyn et al 2010 Phys. Rev. A 82 042701), where a method based on atomic-like Dirac–Sturm orbitals was employed. This work can provide a new tool for the investigation of quantum electrodynamics effects in heavy-ion collisions near the supercritical regime.",
keywords = "ион-атомные столкновения, многозарядные ионы, релятивистская квантовая теория",
author = "I.A. Maltsev and G.B. Deyneka and I.I. Tupitsyn and V.M. Shabaev and Y.S. Kozhedub and G. Plunien and T. St{\"o}hlker",
year = "2013",
doi = "10.1088/0031-8949/2013/T156/014056",
language = "English",
pages = "014056_1--3",
booktitle = "Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines",
publisher = "IOP Publishing Ltd.",
address = "United Kingdom",

}

RIS

TY - GEN

T1 - Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines

AU - Maltsev, I.A.

AU - Deyneka, G.B.

AU - Tupitsyn, I.I.

AU - Shabaev, V.M.

AU - Kozhedub, Y.S.

AU - Plunien, G.

AU - Stöhlker, T.

PY - 2013

Y1 - 2013

N2 - A new approach for solving the time-dependent two-center Dirac equation is presented. The method is based on using the finite basis set of cubic Hermite splines on a two-dimensional lattice. The Dirac equation is treated in the rotating reference frame. The collision of U92+ (as a projectile) and U91+ (as a target) is considered at energy E lab = 6 MeV u−1. The charge transfer probabilities are calculated for different values of the impact parameter. The results obtained are compared with previous calculations (Tupitsyn et al 2010 Phys. Rev. A 82 042701), where a method based on atomic-like Dirac–Sturm orbitals was employed. This work can provide a new tool for the investigation of quantum electrodynamics effects in heavy-ion collisions near the supercritical regime.

AB - A new approach for solving the time-dependent two-center Dirac equation is presented. The method is based on using the finite basis set of cubic Hermite splines on a two-dimensional lattice. The Dirac equation is treated in the rotating reference frame. The collision of U92+ (as a projectile) and U91+ (as a target) is considered at energy E lab = 6 MeV u−1. The charge transfer probabilities are calculated for different values of the impact parameter. The results obtained are compared with previous calculations (Tupitsyn et al 2010 Phys. Rev. A 82 042701), where a method based on atomic-like Dirac–Sturm orbitals was employed. This work can provide a new tool for the investigation of quantum electrodynamics effects in heavy-ion collisions near the supercritical regime.

KW - ион-атомные столкновения

KW - многозарядные ионы

KW - релятивистская квантовая теория

U2 - 10.1088/0031-8949/2013/T156/014056

DO - 10.1088/0031-8949/2013/T156/014056

M3 - Conference contribution

SP - 014056_1-3

BT - Relativistic calculations of charge transfer probabilities in U92+–U91+ (1s) collisions using the basis set of cubic Hermite splines

PB - IOP Publishing Ltd.

ER -

ID: 7389158