https://doi.org/10.1140/epjp/i2016-16048-0
Regular Article
Quasi Sturmian basis for the two-electon continuum
1
Pacific National University, 680035, Khabarovsk, Russia
2
Equipe TMS, SRSMC, Université de Lorraine, 57078, Metz, France
* e-mail: zaytsevsa@pnu.edu.ru
Received:
3
October
2015
Revised:
7
January
2016
Accepted:
9
January
2016
Published online:
25
February
2016
A new type of basis functions is proposed to describe a two-electron continuum which arises as a final state in electron-impact ionization and double photoionization of atomic systems. We name these functions, which are calculated in terms of the recently introduced quasi Sturmian functions, Convoluted Quasi Sturmian functions (CQS); by construction, they look asymptotically like a six-dimensional spherical wave. The driven equation describing an (e, 3e) process on helium in the framework of the Temkin-Poet model is solved numerically in the entire space (rather than in a finite region of space) using expansions on CQS basis functions. We show that quite rapid convergence of the solution expansion can be achieved by multiplying the basis functions by the logarithmic phase factor corresponding to the Coulomb electron-electron interaction.
© Società Italiana di Fisica and Springer-Verlag Berlin Heidelberg, 2016
