Coulomb Dissociation of [Formula presented] and the Low-Energy Cross Section of the [Formula presented] Solar Fusion Reaction

F. Schümann; F. Hammache; S. Typel; F. Uhlig; K. Sümmerer; I. Böttcher; D. Cortina; A. Förster; M. Gai; H. Geissel; U. Greife; N. Iwasa; P. Koczoń; B. Kohlmeyer; R. Kulessa; H. Kumagai; N. Kurz; M. Menzel; T. Motobayashi; H. Oeschler; A. Ozawa; M. Płoskoń; W. Prokopowicz; E. Schwab; P. Senger; F. Strieder; C. Sturm; Zhi Yu Sun; G. Surówka; A. Wagner; W. Waluś

doi:10.1103/PhysRevLett.90.232501

Coulomb Dissociation of [Formula presented] and the Low-Energy Cross Section of the [Formula presented] Solar Fusion Reaction

F. Schümann, F. Hammache, S. Typel, F. Uhlig, K. Sümmerer, I. Böttcher, D. Cortina, A. Förster, M. Gai, H. Geissel, U. Greife, N. Iwasa, P. Koczoń, B. Kohlmeyer, R. Kulessa, H. Kumagai, N. Kurz, M. Menzel, T. Motobayashi, H. OeschlerA. Ozawa, M. Płoskoń, W. Prokopowicz, E. Schwab, P. Senger, F. Strieder, C. Sturm, Zhi Yu Sun, G. Surówka, A. Wagner, W. Waluś

SCI - Physics

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

3 Citations (Scopus)

Abstract

An exclusive measurement of the Coulomb breakup of [Formula presented] into [Formula presented] at [Formula presented] allowed the study of the angular correlations of the breakup particles. These correlations demonstrate clearly that [Formula presented] multipolarity dominates and that [Formula presented] multipolarity can be neglected. By using a simple single-particle model for [Formula presented] and treating the breakup in first-order perturbation theory, we extract a zero-energy [Formula presented] factor of [Formula presented], where the first error is experimental and the second one reflects the theoretical uncertainty in the extrapolation.

Original language	English
Pages (from-to)	4
Number of pages	1
Journal	Physical Review Letters
Volume	90
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevLett.90.232501
Publication status	Published - 2003

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10.1103/PhysRevLett.90.232501

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Schümann, F., Hammache, F., Typel, S., Uhlig, F., Sümmerer, K., Böttcher, I., Cortina, D., Förster, A., Gai, M., Geissel, H., Greife, U., Iwasa, N., Koczoń, P., Kohlmeyer, B., Kulessa, R., Kumagai, H., Kurz, N., Menzel, M., Motobayashi, T., ... Waluś, W. (2003). Coulomb Dissociation of [Formula presented] and the Low-Energy Cross Section of the [Formula presented] Solar Fusion Reaction. Physical Review Letters, 90(23), 4. https://doi.org/10.1103/PhysRevLett.90.232501

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title = "Coulomb Dissociation of [Formula presented] and the Low-Energy Cross Section of the [Formula presented] Solar Fusion Reaction",

abstract = "An exclusive measurement of the Coulomb breakup of [Formula presented] into [Formula presented] at [Formula presented] allowed the study of the angular correlations of the breakup particles. These correlations demonstrate clearly that [Formula presented] multipolarity dominates and that [Formula presented] multipolarity can be neglected. By using a simple single-particle model for [Formula presented] and treating the breakup in first-order perturbation theory, we extract a zero-energy [Formula presented] factor of [Formula presented], where the first error is experimental and the second one reflects the theoretical uncertainty in the extrapolation.",

author = "F. Sch{\"u}mann and F. Hammache and S. Typel and F. Uhlig and K. S{\"u}mmerer and I. B{\"o}ttcher and D. Cortina and A. F{\"o}rster and M. Gai and H. Geissel and U. Greife and N. Iwasa and P. Koczo{\'n} and B. Kohlmeyer and R. Kulessa and H. Kumagai and N. Kurz and M. Menzel and T. Motobayashi and H. Oeschler and A. Ozawa and M. P{\l}osko{\'n} and W. Prokopowicz and E. Schwab and P. Senger and F. Strieder and C. Sturm and Sun, {Zhi Yu} and G. Sur{\'o}wka and A. Wagner and W. Walu{\'s}",

year = "2003",

doi = "10.1103/PhysRevLett.90.232501",

language = "English",

volume = "90",

pages = "4",

journal = "Physical Review Letters",

issn = "0031-9007",

publisher = "American Physical Society",

number = "23",

}

Schümann, F, Hammache, F, Typel, S, Uhlig, F, Sümmerer, K, Böttcher, I, Cortina, D, Förster, A, Gai, M, Geissel, H, Greife, U, Iwasa, N, Koczoń, P, Kohlmeyer, B, Kulessa, R, Kumagai, H, Kurz, N, Menzel, M, Motobayashi, T, Oeschler, H, Ozawa, A, Płoskoń, M, Prokopowicz, W, Schwab, E, Senger, P, Strieder, F, Sturm, C, Sun, ZY, Surówka, G, Wagner, A & Waluś, W 2003, 'Coulomb Dissociation of [Formula presented] and the Low-Energy Cross Section of the [Formula presented] Solar Fusion Reaction', Physical Review Letters, vol. 90, no. 23, pp. 4. https://doi.org/10.1103/PhysRevLett.90.232501

TY - JOUR

T1 - Coulomb Dissociation of [Formula presented] and the Low-Energy Cross Section of the [Formula presented] Solar Fusion Reaction

AU - Schümann, F.

AU - Hammache, F.

AU - Typel, S.

AU - Uhlig, F.

AU - Sümmerer, K.

AU - Böttcher, I.

AU - Cortina, D.

AU - Förster, A.

AU - Gai, M.

AU - Geissel, H.

AU - Greife, U.

AU - Iwasa, N.

AU - Koczoń, P.

AU - Kohlmeyer, B.

AU - Kulessa, R.

AU - Kumagai, H.

AU - Kurz, N.

AU - Menzel, M.

AU - Motobayashi, T.

AU - Oeschler, H.

AU - Ozawa, A.

AU - Płoskoń, M.

AU - Prokopowicz, W.

AU - Schwab, E.

AU - Senger, P.

AU - Strieder, F.

AU - Sturm, C.

AU - Sun, Zhi Yu

AU - Surówka, G.

AU - Wagner, A.

AU - Waluś, W.

PY - 2003

Y1 - 2003

N2 - An exclusive measurement of the Coulomb breakup of [Formula presented] into [Formula presented] at [Formula presented] allowed the study of the angular correlations of the breakup particles. These correlations demonstrate clearly that [Formula presented] multipolarity dominates and that [Formula presented] multipolarity can be neglected. By using a simple single-particle model for [Formula presented] and treating the breakup in first-order perturbation theory, we extract a zero-energy [Formula presented] factor of [Formula presented], where the first error is experimental and the second one reflects the theoretical uncertainty in the extrapolation.

AB - An exclusive measurement of the Coulomb breakup of [Formula presented] into [Formula presented] at [Formula presented] allowed the study of the angular correlations of the breakup particles. These correlations demonstrate clearly that [Formula presented] multipolarity dominates and that [Formula presented] multipolarity can be neglected. By using a simple single-particle model for [Formula presented] and treating the breakup in first-order perturbation theory, we extract a zero-energy [Formula presented] factor of [Formula presented], where the first error is experimental and the second one reflects the theoretical uncertainty in the extrapolation.

UR - http://www.scopus.com/inward/record.url?scp=85038327303&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85038327303&partnerID=8YFLogxK

U2 - 10.1103/PhysRevLett.90.232501

DO - 10.1103/PhysRevLett.90.232501

M3 - Article

AN - SCOPUS:85038327303

SN - 0031-9007

VL - 90

SP - 4

JO - Physical Review Letters

JF - Physical Review Letters

IS - 23

ER -

Coulomb Dissociation of [Formula presented] and the Low-Energy Cross Section of the [Formula presented] Solar Fusion Reaction

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