Search for high-spin states in Si27 and Al27

Z. J. Cao; R. D. Bent; H. Nann; J. D. Brown

doi:10.1103/PhysRevC.35.875

Search for high-spin states in Si27 and Al27

Z. J. Cao, R. D. Bent, H. Nann, J. D. Brown

Radiology and Imaging

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Abstract

We have studied the reactions Mg24(,p)27Al and Al27(3He,t)27Si to obtain independent evidence regarding the structure of states selectively populated in the Mg26(p,-)27Si reaction. High-spin two-particle one-hole configurations have been inferred from (p,-) studies for states in Si27 at excitation energies of 7.0 and 9.5 MeV. The (,p) data provide evidence for two possible (13/2)+ states in the isobaric analog nucleus Al27 at excitation energies of 6.98 and 9.59 MeV, while the (3He,t) data provide evidence for a possible (13/2)+ state at 9.49 MeV in Si27. These results support the inferences drawn from the (p,-) studies and the use of the A(p,-)A+1 reaction as a spectroscopic tool in identifying high-spin final states having a simple two-particle, one-hole configuration with respect to the target nucleus, which may not be easily reached or identified by other means.

Original language	English (US)
Pages (from-to)	875-879
Number of pages	5
Journal	Physical Review C
Volume	35
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevC.35.875
State	Published - 1987

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1103/PhysRevC.35.875

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title = "Search for high-spin states in Si27 and Al27",

abstract = "We have studied the reactions Mg24(,p)27Al and Al27(3He,t)27Si to obtain independent evidence regarding the structure of states selectively populated in the Mg26(p,-)27Si reaction. High-spin two-particle one-hole configurations have been inferred from (p,-) studies for states in Si27 at excitation energies of 7.0 and 9.5 MeV. The (,p) data provide evidence for two possible (13/2)+ states in the isobaric analog nucleus Al27 at excitation energies of 6.98 and 9.59 MeV, while the (3He,t) data provide evidence for a possible (13/2)+ state at 9.49 MeV in Si27. These results support the inferences drawn from the (p,-) studies and the use of the A(p,-)A+1 reaction as a spectroscopic tool in identifying high-spin final states having a simple two-particle, one-hole configuration with respect to the target nucleus, which may not be easily reached or identified by other means.",

author = "Cao, {Z. J.} and Bent, {R. D.} and H. Nann and Brown, {J. D.}",

year = "1987",

doi = "10.1103/PhysRevC.35.875",

language = "English (US)",

volume = "35",

pages = "875--879",

journal = "Physical Review C - Nuclear Physics",

issn = "0556-2813",

publisher = "American Physical Society",

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}

TY - JOUR

T1 - Search for high-spin states in Si27 and Al27

AU - Cao, Z. J.

AU - Bent, R. D.

AU - Nann, H.

AU - Brown, J. D.

PY - 1987

Y1 - 1987

N2 - We have studied the reactions Mg24(,p)27Al and Al27(3He,t)27Si to obtain independent evidence regarding the structure of states selectively populated in the Mg26(p,-)27Si reaction. High-spin two-particle one-hole configurations have been inferred from (p,-) studies for states in Si27 at excitation energies of 7.0 and 9.5 MeV. The (,p) data provide evidence for two possible (13/2)+ states in the isobaric analog nucleus Al27 at excitation energies of 6.98 and 9.59 MeV, while the (3He,t) data provide evidence for a possible (13/2)+ state at 9.49 MeV in Si27. These results support the inferences drawn from the (p,-) studies and the use of the A(p,-)A+1 reaction as a spectroscopic tool in identifying high-spin final states having a simple two-particle, one-hole configuration with respect to the target nucleus, which may not be easily reached or identified by other means.

AB - We have studied the reactions Mg24(,p)27Al and Al27(3He,t)27Si to obtain independent evidence regarding the structure of states selectively populated in the Mg26(p,-)27Si reaction. High-spin two-particle one-hole configurations have been inferred from (p,-) studies for states in Si27 at excitation energies of 7.0 and 9.5 MeV. The (,p) data provide evidence for two possible (13/2)+ states in the isobaric analog nucleus Al27 at excitation energies of 6.98 and 9.59 MeV, while the (3He,t) data provide evidence for a possible (13/2)+ state at 9.49 MeV in Si27. These results support the inferences drawn from the (p,-) studies and the use of the A(p,-)A+1 reaction as a spectroscopic tool in identifying high-spin final states having a simple two-particle, one-hole configuration with respect to the target nucleus, which may not be easily reached or identified by other means.

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JF - Physical Review C - Nuclear Physics

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Search for high-spin states in Si27 and Al27

Abstract

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