Photon-induced proton knockout from Pb and C

E.G. Aschenauer; C. Van Den Abeele; J.-O. Adler; B.-E. Andersson; L.J. De Bever; I. Bobeldijk; D. Branford; S.A. Bulychjov; T. Davinson; K. Hansen; D.G. Ireland; L. Isaksson; D. Ivanov; D.G. Johnstone; A. Khanov; L. Lapikás; L.J. Lindgren; G. De Meyer; D. Van Neck; B. Nilsson; H. Ruijter; D. Ryckbosch; A. Sandell; A.C. Shotter; B. Schröder; V. Van Der Sluys; G. Van Der Steenhoven; P. Svensson; M.A. Van Uden; R.E. Van De Vyver

Photon-induced proton knockout from Pb and C

E.G. Aschenauer, C. Van Den Abeele, J.-O. Adler, B.-E. Andersson, L.J. De Bever, I. Bobeldijk, D. Branford, S.A. Bulychjov, T. Davinson, K. Hansen, D.G. Ireland, L. Isaksson, D. Ivanov, D.G. Johnstone, A. Khanov, L. Lapikás, L.J. Lindgren, G. De Meyer, D. Van Neck, B. NilssonH. Ruijter, D. Ryckbosch, A. Sandell, A.C. Shotter, B. Schröder, V. Van Der Sluys, G. Van Der Steenhoven, P. Svensson, M.A. Van Uden, R.E. Van De Vyver

School of Physics and Astronomy

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

Abstract

Cross sections have been measured for the reactions Pb(γ,p) and C(γ,p) leading to the low-lying and continuum states in T1 and B using a high energy-resolution tagged photon beam of 41 to 57 MeV. The data are compared with results obtained with the (e,e'p) reaction in the same recoil-momentum range and with various theoretical calculations. A comparison of the (e,e'p) and (γ,p) data in terms of a reduced cross section versus momentum does not show a systematic overlap of the (e,e'p) and (γ,p) results, i.e. no scaling is observed. Distorted-wave impulse-approximation (DWIA) calculations, of which the input is constrained by the (e,e'p) data, and random-phase approximation calculations (RPA) underestimate the C(γ,p) data by typically a factor five depending on angle and missing energy. For Pb the difference between the calculations and the data for the low-lying states is much less, but an increasing discrepancy between the data and the calculations is found in the continuum. The inclusion of meson-exchange currents (MEC) brings the calculations for both nuclei on average closer to the data, but MEC effects are considerably less important for Pb as compared to C. Finally, a remarkable similarity is observed between the continuum response of the (γ,p) and (e,e'p) reactions on Pb despite the difference in the electromagnetic couplings involved.

Original language	English
Pages (from-to)	33-51
Number of pages	19
Journal	Nuclear Physics A
Volume	615
Issue number	1
Publication status	Published - 17 Mar 1997

Cite this

Aschenauer, E. G., Van Den Abeele, C., Adler, J.-O., Andersson, B.-E., De Bever, L. J., Bobeldijk, I., Branford, D., Bulychjov, S. A., Davinson, T., Hansen, K., Ireland, D. G., Isaksson, L., Ivanov, D., Johnstone, D. G., Khanov, A., Lapikás, L., Lindgren, L. J., De Meyer, G., Van Neck, D., ... Van De Vyver, R. E. (1997). Photon-induced proton knockout from Pb and C. Nuclear Physics A, 615(1), 33-51.

@article{4f42f78d8cb74b2a95bce91a3a9fa738,

title = "Photon-induced proton knockout from Pb and C",

abstract = "Cross sections have been measured for the reactions Pb(γ,p) and C(γ,p) leading to the low-lying and continuum states in T1 and B using a high energy-resolution tagged photon beam of 41 to 57 MeV. The data are compared with results obtained with the (e,e'p) reaction in the same recoil-momentum range and with various theoretical calculations. A comparison of the (e,e'p) and (γ,p) data in terms of a reduced cross section versus momentum does not show a systematic overlap of the (e,e'p) and (γ,p) results, i.e. no scaling is observed. Distorted-wave impulse-approximation (DWIA) calculations, of which the input is constrained by the (e,e'p) data, and random-phase approximation calculations (RPA) underestimate the C(γ,p) data by typically a factor five depending on angle and missing energy. For Pb the difference between the calculations and the data for the low-lying states is much less, but an increasing discrepancy between the data and the calculations is found in the continuum. The inclusion of meson-exchange currents (MEC) brings the calculations for both nuclei on average closer to the data, but MEC effects are considerably less important for Pb as compared to C. Finally, a remarkable similarity is observed between the continuum response of the (γ,p) and (e,e'p) reactions on Pb despite the difference in the electromagnetic couplings involved.",

author = "E.G. Aschenauer and {Van Den Abeele}, C. and J.-O. Adler and B.-E. Andersson and {De Bever}, L.J. and I. Bobeldijk and D. Branford and S.A. Bulychjov and T. Davinson and K. Hansen and D.G. Ireland and L. Isaksson and D. Ivanov and D.G. Johnstone and A. Khanov and L. Lapik{\'a}s and L.J. Lindgren and {De Meyer}, G. and {Van Neck}, D. and B. Nilsson and H. Ruijter and D. Ryckbosch and A. Sandell and A.C. Shotter and B. Schr{\"o}der and {Van Der Sluys}, V. and {Van Der Steenhoven}, G. and P. Svensson and {Van Uden}, M.A. and {Van De Vyver}, R.E.",

year = "1997",

month = mar,

day = "17",

language = "English",

volume = "615",

pages = "33--51",

journal = "Nuclear Physics A",

issn = "0375-9474",

publisher = "Elsevier",

number = "1",

}

Aschenauer, EG, Van Den Abeele, C, Adler, J-O, Andersson, B-E, De Bever, LJ, Bobeldijk, I, Branford, D, Bulychjov, SA, Davinson, T, Hansen, K, Ireland, DG, Isaksson, L, Ivanov, D, Johnstone, DG, Khanov, A, Lapikás, L, Lindgren, LJ, De Meyer, G, Van Neck, D, Nilsson, B, Ruijter, H, Ryckbosch, D, Sandell, A, Shotter, AC, Schröder, B, Van Der Sluys, V, Van Der Steenhoven, G, Svensson, P, Van Uden, MA & Van De Vyver, RE 1997, 'Photon-induced proton knockout from Pb and C', Nuclear Physics A, vol. 615, no. 1, pp. 33-51.

TY - JOUR

T1 - Photon-induced proton knockout from Pb and C

AU - Aschenauer, E.G.

AU - Van Den Abeele, C.

AU - Adler, J.-O.

AU - Andersson, B.-E.

AU - De Bever, L.J.

AU - Bobeldijk, I.

AU - Branford, D.

AU - Bulychjov, S.A.

AU - Davinson, T.

AU - Hansen, K.

AU - Ireland, D.G.

AU - Isaksson, L.

AU - Ivanov, D.

AU - Johnstone, D.G.

AU - Khanov, A.

AU - Lapikás, L.

AU - Lindgren, L.J.

AU - De Meyer, G.

AU - Van Neck, D.

AU - Nilsson, B.

AU - Ruijter, H.

AU - Ryckbosch, D.

AU - Sandell, A.

AU - Shotter, A.C.

AU - Schröder, B.

AU - Van Der Sluys, V.

AU - Van Der Steenhoven, G.

AU - Svensson, P.

AU - Van Uden, M.A.

AU - Van De Vyver, R.E.

PY - 1997/3/17

Y1 - 1997/3/17

N2 - Cross sections have been measured for the reactions Pb(γ,p) and C(γ,p) leading to the low-lying and continuum states in T1 and B using a high energy-resolution tagged photon beam of 41 to 57 MeV. The data are compared with results obtained with the (e,e'p) reaction in the same recoil-momentum range and with various theoretical calculations. A comparison of the (e,e'p) and (γ,p) data in terms of a reduced cross section versus momentum does not show a systematic overlap of the (e,e'p) and (γ,p) results, i.e. no scaling is observed. Distorted-wave impulse-approximation (DWIA) calculations, of which the input is constrained by the (e,e'p) data, and random-phase approximation calculations (RPA) underestimate the C(γ,p) data by typically a factor five depending on angle and missing energy. For Pb the difference between the calculations and the data for the low-lying states is much less, but an increasing discrepancy between the data and the calculations is found in the continuum. The inclusion of meson-exchange currents (MEC) brings the calculations for both nuclei on average closer to the data, but MEC effects are considerably less important for Pb as compared to C. Finally, a remarkable similarity is observed between the continuum response of the (γ,p) and (e,e'p) reactions on Pb despite the difference in the electromagnetic couplings involved.

AB - Cross sections have been measured for the reactions Pb(γ,p) and C(γ,p) leading to the low-lying and continuum states in T1 and B using a high energy-resolution tagged photon beam of 41 to 57 MeV. The data are compared with results obtained with the (e,e'p) reaction in the same recoil-momentum range and with various theoretical calculations. A comparison of the (e,e'p) and (γ,p) data in terms of a reduced cross section versus momentum does not show a systematic overlap of the (e,e'p) and (γ,p) results, i.e. no scaling is observed. Distorted-wave impulse-approximation (DWIA) calculations, of which the input is constrained by the (e,e'p) data, and random-phase approximation calculations (RPA) underestimate the C(γ,p) data by typically a factor five depending on angle and missing energy. For Pb the difference between the calculations and the data for the low-lying states is much less, but an increasing discrepancy between the data and the calculations is found in the continuum. The inclusion of meson-exchange currents (MEC) brings the calculations for both nuclei on average closer to the data, but MEC effects are considerably less important for Pb as compared to C. Finally, a remarkable similarity is observed between the continuum response of the (γ,p) and (e,e'p) reactions on Pb despite the difference in the electromagnetic couplings involved.

UR - http://www.scopus.com/inward/record.url?eid=2-s2.0-0031575728&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:0031575728

SN - 0375-9474

VL - 615

SP - 33

EP - 51

JO - Nuclear Physics A

JF - Nuclear Physics A

IS - 1

ER -

Photon-induced proton knockout from Pb and C

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