Abstract
It is demonstrated that a single convergent close-coupling (CCC) calculation of 100 eV electron impact on the ground state of helium is able to provide accurate elastic and inelastic (n {<=} 3 levels) differential cross sections, as well as singly-, doubly-, and triply-, differential ionization cross sections. Hence, it is suggested that the CCC theory deserve the title of a `complete scattering theory`. 28 refs., 5 figs.
Citation Formats
Bray, I, and Fursa, D V.
Convergent close-coupling method: a `complete scattering theory`?.
Australia: N. p.,
1995.
Web.
Bray, I, & Fursa, D V.
Convergent close-coupling method: a `complete scattering theory`?.
Australia.
Bray, I, and Fursa, D V.
1995.
"Convergent close-coupling method: a `complete scattering theory`?"
Australia.
@misc{etde_223506,
title = {Convergent close-coupling method: a `complete scattering theory`?}
author = {Bray, I, and Fursa, D V}
abstractNote = {It is demonstrated that a single convergent close-coupling (CCC) calculation of 100 eV electron impact on the ground state of helium is able to provide accurate elastic and inelastic (n {<=} 3 levels) differential cross sections, as well as singly-, doubly-, and triply-, differential ionization cross sections. Hence, it is suggested that the CCC theory deserve the title of a `complete scattering theory`. 28 refs., 5 figs.}
place = {Australia}
year = {1995}
month = {Sep}
}
title = {Convergent close-coupling method: a `complete scattering theory`?}
author = {Bray, I, and Fursa, D V}
abstractNote = {It is demonstrated that a single convergent close-coupling (CCC) calculation of 100 eV electron impact on the ground state of helium is able to provide accurate elastic and inelastic (n {<=} 3 levels) differential cross sections, as well as singly-, doubly-, and triply-, differential ionization cross sections. Hence, it is suggested that the CCC theory deserve the title of a `complete scattering theory`. 28 refs., 5 figs.}
place = {Australia}
year = {1995}
month = {Sep}
}