Continuum-discretized coupled-channels method for four-body breakup reactions

M. Kamimura; T. Matsumoto; E. Hiyama; K. Ogata; Y. Iseri; M. Yahiro

doi:10.1063/1.2114706

Continuum-discretized coupled-channels method for four-body breakup reactions

M. Kamimura, T. Matsumoto, E. Hiyama, K. Ogata, Y. Iseri, M. Yahiro

Experimental Particle Physics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

3 Citations (Scopus)

Abstract

Development of the method of CDCC (Continuum-Discretized Coupled-Channels) from the level of three-body CDCC to that of four-body CDCC is reviewed. Introduction of the pseudo-state method based on the Gaussian expansion method for discretizing the continuum states of two-body and three-body projectiles plays an essential role in the development. Furthermore, introduction of the complex-range Gaussian basis functions is important to improve the CDCC for nuclear breakup so as to accomplish that for Coulomb and nuclear breakup. A successful application of the four-body CDCC to ⁶He+¹²C scattering at 18 and 229.8 MeV is reported.

Original language	English
Title of host publication	REACTION MECHANISMS FOR RARE ISOTOPE BEAMS
Subtitle of host publication	2nd Argonne/MSU/JINA/INT RIA Workshop
Pages	174-184
Number of pages	11
DOIs	https://doi.org/10.1063/1.2114706
Publication status	Published - Oct 14 2005
Event	2nd Argonne/MSU/JINA/INT RIA Workshop on Reaction Mechanisms for Rare Isotope Beams - East Lansing, MI, United States Duration: Mar 9 2005 → Mar 12 2005

Publication series

Name	AIP Conference Proceedings
Volume	791
ISSN (Print)	0094-243X
ISSN (Electronic)	1551-7616

Other

Other	2nd Argonne/MSU/JINA/INT RIA Workshop on Reaction Mechanisms for Rare Isotope Beams
Country/Territory	United States
City	East Lansing, MI
Period	3/9/05 → 3/12/05

All Science Journal Classification (ASJC) codes

Physics and Astronomy(all)

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10.1063/1.2114706

Cite this

Kamimura, M, Matsumoto, T, Hiyama, E, Ogata, K, Iseri, Y & Yahiro, M 2005, Continuum-discretized coupled-channels method for four-body breakup reactions. in REACTION MECHANISMS FOR RARE ISOTOPE BEAMS: 2nd Argonne/MSU/JINA/INT RIA Workshop. AIP Conference Proceedings, vol. 791, pp. 174-184, 2nd Argonne/MSU/JINA/INT RIA Workshop on Reaction Mechanisms for Rare Isotope Beams, East Lansing, MI, United States, 3/9/05. https://doi.org/10.1063/1.2114706

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abstract = "Development of the method of CDCC (Continuum-Discretized Coupled-Channels) from the level of three-body CDCC to that of four-body CDCC is reviewed. Introduction of the pseudo-state method based on the Gaussian expansion method for discretizing the continuum states of two-body and three-body projectiles plays an essential role in the development. Furthermore, introduction of the complex-range Gaussian basis functions is important to improve the CDCC for nuclear breakup so as to accomplish that for Coulomb and nuclear breakup. A successful application of the four-body CDCC to 6He+12C scattering at 18 and 229.8 MeV is reported.",

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AU - Kamimura, M.

AU - Matsumoto, T.

AU - Hiyama, E.

AU - Ogata, K.

AU - Iseri, Y.

AU - Yahiro, M.

PY - 2005/10/14

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N2 - Development of the method of CDCC (Continuum-Discretized Coupled-Channels) from the level of three-body CDCC to that of four-body CDCC is reviewed. Introduction of the pseudo-state method based on the Gaussian expansion method for discretizing the continuum states of two-body and three-body projectiles plays an essential role in the development. Furthermore, introduction of the complex-range Gaussian basis functions is important to improve the CDCC for nuclear breakup so as to accomplish that for Coulomb and nuclear breakup. A successful application of the four-body CDCC to 6He+12C scattering at 18 and 229.8 MeV is reported.

AB - Development of the method of CDCC (Continuum-Discretized Coupled-Channels) from the level of three-body CDCC to that of four-body CDCC is reviewed. Introduction of the pseudo-state method based on the Gaussian expansion method for discretizing the continuum states of two-body and three-body projectiles plays an essential role in the development. Furthermore, introduction of the complex-range Gaussian basis functions is important to improve the CDCC for nuclear breakup so as to accomplish that for Coulomb and nuclear breakup. A successful application of the four-body CDCC to 6He+12C scattering at 18 and 229.8 MeV is reported.

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Continuum-discretized coupled-channels method for four-body breakup reactions

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