Experimental barrier distributions for the fusion of 12C, 16O, 28Si, and 35Cl with 92Zr and coupled-channels analyses

J. O. Newton; C. R. Morton; M. Dasgupta; J. R. Leigh; J. C. Mein; D. J. Hinde; H. Timmers; K. Hagino

doi:10.1103/PhysRevC.64.064608

Experimental barrier distributions for the fusion of ¹²C, ¹⁶O, ²⁸Si, and ³⁵Cl with ⁹²Zr and coupled-channels analyses

J. O. Newton^*, C. R. Morton, M. Dasgupta, J. R. Leigh, J. C. Mein, D. J. Hinde, H. Timmers, K. Hagino

^*Corresponding author for this work

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

156 Citations (Scopus)

Abstract

Precise excitation functions for the fusion of ¹²C, ¹⁶O, ²⁸Si, and ³⁵Cl on ⁹²Zr were measured for bombarding energies spanning the Coulomb barrier regions. Experimental fusion barrier distributions were derived from these data and compared with the results of realistic coupled-channels calculations, which included couplings to all orders and treated excitation energies correctly. To gain reasonable agreement for the heavier projectiles it was necessary to include double-phonon excitations of the first 2⁺ and 3^- vibrational states in ⁹²Zr. The diffuseness parameter required to fit the high-energy cross sections increases with increasing charge of the projectile and, as found in earlier work, is higher than that required to fit elastic-scattering data. It is suggested that a potential which falls more rapidly at large distance than the Woods-Saxon form might help explain the anomaly.

Original language	English
Article number	064608
Pages (from-to)	646081-6460812
Number of pages	5814732
Journal	Physical Review C - Nuclear Physics
Volume	64
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevC.64.064608
Publication status	Published - Dec 2001

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title = "Experimental barrier distributions for the fusion of 12C, 16O, 28Si, and 35Cl with 92Zr and coupled-channels analyses",

abstract = "Precise excitation functions for the fusion of 12C, 16O, 28Si, and 35Cl on 92Zr were measured for bombarding energies spanning the Coulomb barrier regions. Experimental fusion barrier distributions were derived from these data and compared with the results of realistic coupled-channels calculations, which included couplings to all orders and treated excitation energies correctly. To gain reasonable agreement for the heavier projectiles it was necessary to include double-phonon excitations of the first 2+ and 3- vibrational states in 92Zr. The diffuseness parameter required to fit the high-energy cross sections increases with increasing charge of the projectile and, as found in earlier work, is higher than that required to fit elastic-scattering data. It is suggested that a potential which falls more rapidly at large distance than the Woods-Saxon form might help explain the anomaly.",

author = "Newton, {J. O.} and Morton, {C. R.} and M. Dasgupta and Leigh, {J. R.} and Mein, {J. C.} and Hinde, {D. J.} and H. Timmers and K. Hagino",

year = "2001",

month = dec,

doi = "10.1103/PhysRevC.64.064608",

language = "English",

volume = "64",

pages = "646081--6460812",

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publisher = "American Physical Society",

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AU - Newton, J. O.

AU - Morton, C. R.

AU - Dasgupta, M.

AU - Leigh, J. R.

AU - Mein, J. C.

AU - Hinde, D. J.

AU - Timmers, H.

AU - Hagino, K.

PY - 2001/12

Y1 - 2001/12

N2 - Precise excitation functions for the fusion of 12C, 16O, 28Si, and 35Cl on 92Zr were measured for bombarding energies spanning the Coulomb barrier regions. Experimental fusion barrier distributions were derived from these data and compared with the results of realistic coupled-channels calculations, which included couplings to all orders and treated excitation energies correctly. To gain reasonable agreement for the heavier projectiles it was necessary to include double-phonon excitations of the first 2+ and 3- vibrational states in 92Zr. The diffuseness parameter required to fit the high-energy cross sections increases with increasing charge of the projectile and, as found in earlier work, is higher than that required to fit elastic-scattering data. It is suggested that a potential which falls more rapidly at large distance than the Woods-Saxon form might help explain the anomaly.

AB - Precise excitation functions for the fusion of 12C, 16O, 28Si, and 35Cl on 92Zr were measured for bombarding energies spanning the Coulomb barrier regions. Experimental fusion barrier distributions were derived from these data and compared with the results of realistic coupled-channels calculations, which included couplings to all orders and treated excitation energies correctly. To gain reasonable agreement for the heavier projectiles it was necessary to include double-phonon excitations of the first 2+ and 3- vibrational states in 92Zr. The diffuseness parameter required to fit the high-energy cross sections increases with increasing charge of the projectile and, as found in earlier work, is higher than that required to fit elastic-scattering data. It is suggested that a potential which falls more rapidly at large distance than the Woods-Saxon form might help explain the anomaly.

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Experimental barrier distributions for the fusion of ¹²C, ¹⁶O, ²⁸Si, and ³⁵Cl with ⁹²Zr and coupled-channels analyses

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