Convergent close-coupling approach to light and heavy projectile scattering on atomic and molecular hydrogen

Bray, Igor; Abdurakhmanov, Ilkhom; Bailey, J.; Bray, A.; Fursa, Dmitry; Kadyrov, Alisher; Rawlins, C.; Savage, J.; Stelbovics, A.; Zammit, M.

doi:10.1088/1361-6455/aa8a23

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Authors

Bray, Igor

Abdurakhmanov, Ilkhom

Bailey, J.

Bray, A.

Fursa, Dmitry

Kadyrov, Alisher

Rawlins, C.

Savage, J.

Stelbovics, A.

Zammit, M.

Date

2017

Type

Journal Article

Metadata

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Citation

Bray, I. and Abdurakhmanov, I. and Bailey, J. and Bray, A. and Fursa, D. and Kadyrov, A. and Rawlins, C. et al. 2017. Convergent close-coupling approach to light and heavy projectile scattering on atomic and molecular hydrogen. Journal of Physics B: Atomic, Molecular and Optical Physics. 50 (20).

Source Title

Journal of Physics B: Atomic, Molecular and Optical Physics

DOI

10.1088/1361-6455/aa8a23

ISSN

0953-4075

School

Department of Physics and Astronomy

URI

http://hdl.handle.net/20.500.11937/57958

Collection

Curtin Research Publications

Abstract

© 2017 IOP Publishing Ltd. The atomic hydrogen target has played a pivotal role in the development of quantum collision theory. The key complexities of computationally managing the countably infinite discrete states and the uncountably infinite continuum were solved by using atomic hydrogen as the prototype atomic target. In the case of positron or proton scattering the extra complexity of charge exchange was also solved using the atomic hydrogen target. Most recently, molecular hydrogen has been used successfully as a prototype molecule for developing the corresponding scattering theory. We concentrate on the convergent close-coupling computational approach to light projectiles, such as electrons and positrons, and heavy projectiles, such as protons and antiprotons, scattering on atomic and molecular hydrogen.