Coulomb force effects in deuteron-proton breakup reaction

I. Ciepał; B. Kłos; A. Kozela; E. Stephan; St Kistryn; A. Biegun; K. Bodek; A. Deltuva; M. Eslami-Kalantari; V. Jha; N. Kalantar-Nayestanaki; G. Khatri; Da Kirillov; Di Kirillov; St Kliczewski; M. Kravcikova; P. Kulessa; H. Machner; A. Magiera; G. Martinska; J. Messchendorp; W. Parol; A. Ramazani-Moghaddam-arani; B. J. Roy; H. Sakai; K. Sekiguchi; I. Sitnik; R. Siudak; I. Skwira-Chalot; R. Sworst; J. Urban; J. Zejma

doi:10.5506/APhysPolB.46.459

Coulomb force effects in deuteron-proton breakup reaction

I. Ciepał, B. Kłos, A. Kozela, E. Stephan, St Kistryn, A. Biegun, K. Bodek, A. Deltuva, M. Eslami-Kalantari, V. Jha, N. Kalantar-Nayestanaki, G. Khatri, Da Kirillov, Di Kirillov, St Kliczewski, M. Kravcikova, P. Kulessa, H. Machner, A. Magiera, G. MartinskaJ. Messchendorp, W. Parol, A. Ramazani-Moghaddam-arani, B. J. Roy, H. Sakai, K. Sekiguchi, I. Sitnik, R. Siudak, I. Skwira-Chalot, R. Sworst, J. Urban, J. Zejma

SCI - Physics

Research output: Contribution to journal › Article › peer-review

Abstract

A large set of cross-section data for the ¹H(d; pp)n breakup reaction was measured at 130 MeV deuteron beam energy with the Germanium Wall setup covering the range of very forward polar angles. In the investigated part of the phase-space, the dynamics is dominated by the Coulomb force influence. The data are compared with results of theoretical calculations based on the realistic Argonne V18 potential supplemented with the long-range electromagnetic component. The predictions also include the Urbana IX three nucleon force model. The cross-section data reveal seizable Coulomb force effects.

Original language	English
Pages (from-to)	459-462
Number of pages	4
Journal	Acta Physica Polonica B
Volume	46
Issue number	3
DOIs	https://doi.org/10.5506/APhysPolB.46.459
Publication status	Published - 2015 Mar 1

ASJC Scopus subject areas

Physics and Astronomy(all)

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Ciepał, I., Kłos, B., Kozela, A., Stephan, E., Kistryn, S., Biegun, A., Bodek, K., Deltuva, A., Eslami-Kalantari, M., Jha, V., Kalantar-Nayestanaki, N., Khatri, G., Kirillov, D., Kirillov, D., Kliczewski, S., Kravcikova, M., Kulessa, P., Machner, H., Magiera, A., ... Zejma, J. (2015). Coulomb force effects in deuteron-proton breakup reaction. Acta Physica Polonica B, 46(3), 459-462. https://doi.org/10.5506/APhysPolB.46.459

Ciepał, I, Kłos, B, Kozela, A, Stephan, E, Kistryn, S, Biegun, A, Bodek, K, Deltuva, A, Eslami-Kalantari, M, Jha, V, Kalantar-Nayestanaki, N, Khatri, G, Kirillov, D, Kirillov, D, Kliczewski, S, Kravcikova, M, Kulessa, P, Machner, H, Magiera, A, Martinska, G, Messchendorp, J, Parol, W, Ramazani-Moghaddam-arani, A, Roy, BJ, Sakai, H, Sekiguchi, K, Sitnik, I, Siudak, R, Skwira-Chalot, I, Sworst, R, Urban, J & Zejma, J 2015, 'Coulomb force effects in deuteron-proton breakup reaction', Acta Physica Polonica B, vol. 46, no. 3, pp. 459-462. https://doi.org/10.5506/APhysPolB.46.459

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abstract = "A large set of cross-section data for the 1H(d; pp)n breakup reaction was measured at 130 MeV deuteron beam energy with the Germanium Wall setup covering the range of very forward polar angles. In the investigated part of the phase-space, the dynamics is dominated by the Coulomb force influence. The data are compared with results of theoretical calculations based on the realistic Argonne V18 potential supplemented with the long-range electromagnetic component. The predictions also include the Urbana IX three nucleon force model. The cross-section data reveal seizable Coulomb force effects.",

author = "I. Ciepa{\l} and B. K{\l}os and A. Kozela and E. Stephan and St Kistryn and A. Biegun and K. Bodek and A. Deltuva and M. Eslami-Kalantari and V. Jha and N. Kalantar-Nayestanaki and G. Khatri and Da Kirillov and Di Kirillov and St Kliczewski and M. Kravcikova and P. Kulessa and H. Machner and A. Magiera and G. Martinska and J. Messchendorp and W. Parol and A. Ramazani-Moghaddam-arani and Roy, {B. J.} and H. Sakai and K. Sekiguchi and I. Sitnik and R. Siudak and I. Skwira-Chalot and R. Sworst and J. Urban and J. Zejma",

year = "2015",

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doi = "10.5506/APhysPolB.46.459",

language = "English",

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T1 - Coulomb force effects in deuteron-proton breakup reaction

AU - Ciepał, I.

AU - Kłos, B.

AU - Kozela, A.

AU - Stephan, E.

AU - Kistryn, St

AU - Biegun, A.

AU - Bodek, K.

AU - Deltuva, A.

AU - Eslami-Kalantari, M.

AU - Jha, V.

AU - Kalantar-Nayestanaki, N.

AU - Khatri, G.

AU - Kirillov, Da

AU - Kirillov, Di

AU - Kliczewski, St

AU - Kravcikova, M.

AU - Kulessa, P.

AU - Machner, H.

AU - Magiera, A.

AU - Martinska, G.

AU - Messchendorp, J.

AU - Parol, W.

AU - Ramazani-Moghaddam-arani, A.

AU - Roy, B. J.

AU - Sakai, H.

AU - Sekiguchi, K.

AU - Sitnik, I.

AU - Siudak, R.

AU - Skwira-Chalot, I.

AU - Sworst, R.

AU - Urban, J.

AU - Zejma, J.

PY - 2015/3/1

Y1 - 2015/3/1

N2 - A large set of cross-section data for the 1H(d; pp)n breakup reaction was measured at 130 MeV deuteron beam energy with the Germanium Wall setup covering the range of very forward polar angles. In the investigated part of the phase-space, the dynamics is dominated by the Coulomb force influence. The data are compared with results of theoretical calculations based on the realistic Argonne V18 potential supplemented with the long-range electromagnetic component. The predictions also include the Urbana IX three nucleon force model. The cross-section data reveal seizable Coulomb force effects.

AB - A large set of cross-section data for the 1H(d; pp)n breakup reaction was measured at 130 MeV deuteron beam energy with the Germanium Wall setup covering the range of very forward polar angles. In the investigated part of the phase-space, the dynamics is dominated by the Coulomb force influence. The data are compared with results of theoretical calculations based on the realistic Argonne V18 potential supplemented with the long-range electromagnetic component. The predictions also include the Urbana IX three nucleon force model. The cross-section data reveal seizable Coulomb force effects.

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JO - Acta Physica Polonica, Series B.

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Coulomb force effects in deuteron-proton breakup reaction

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