Further improvement of the upper limit on the direct 3α decay from the hoyle state in C12

M. Itoh; S. Ando; T. Aoki; H. Arikawa; S. Ezure; K. Harada; T. Hayamizu; T. Inoue; T. Ishikawa; K. Kato; H. Kawamura; Y. Sakemi; A. Uchiyama

doi:10.1103/PhysRevLett.113.102501

Further improvement of the upper limit on the direct 3α decay from the hoyle state in C12

M. Itoh, S. Ando, T. Aoki, H. Arikawa, S. Ezure, K. Harada, T. Hayamizu, T. Inoue, T. Ishikawa, K. Kato, H. Kawamura, Y. Sakemi, A. Uchiyama

Cyclotron and Radioisotope Center (CYRIC)

Tohoku University

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

59 Citations (Scopus)

Abstract

The direct 3α decay branch from the 02+ state at Ex=7.65MeV in C12, which is known as the Hoyle state, is considered to affect the triple-α reaction rate strongly and to give crucial information on its structure. We have performed a high-precision measurement of the 3α decay from this state using the C12(C12,3α)C12 reaction at EC12=110MeV. The branching ratio of the direct 3α decay was under the detection limit in the present experiment. By comparing with Monte Carlo simulations for three decay mechanisms as the sequential decay through the ground state of Be8, the direct decay with equal energies of three α particles, and the direct decay to the phase space uniformly, we have obtained the upper limit of 0.2% on the direct 3α decay.

Original language	English
Article number	102501
Journal	Physical Review Letters
Volume	113
Issue number	10
DOIs	https://doi.org/10.1103/PhysRevLett.113.102501
Publication status	Published - 2014 Sept 2

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title = "Further improvement of the upper limit on the direct 3α decay from the hoyle state in C12",

abstract = "The direct 3α decay branch from the 02+ state at Ex=7.65MeV in C12, which is known as the Hoyle state, is considered to affect the triple-α reaction rate strongly and to give crucial information on its structure. We have performed a high-precision measurement of the 3α decay from this state using the C12(C12,3α)C12 reaction at EC12=110MeV. The branching ratio of the direct 3α decay was under the detection limit in the present experiment. By comparing with Monte Carlo simulations for three decay mechanisms as the sequential decay through the ground state of Be8, the direct decay with equal energies of three α particles, and the direct decay to the phase space uniformly, we have obtained the upper limit of 0.2% on the direct 3α decay.",

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T1 - Further improvement of the upper limit on the direct 3α decay from the hoyle state in C12

AU - Itoh, M.

AU - Ando, S.

AU - Aoki, T.

AU - Arikawa, H.

AU - Ezure, S.

AU - Harada, K.

AU - Hayamizu, T.

AU - Inoue, T.

AU - Ishikawa, T.

AU - Kato, K.

AU - Kawamura, H.

AU - Sakemi, Y.

AU - Uchiyama, A.

PY - 2014/9/2

Y1 - 2014/9/2

N2 - The direct 3α decay branch from the 02+ state at Ex=7.65MeV in C12, which is known as the Hoyle state, is considered to affect the triple-α reaction rate strongly and to give crucial information on its structure. We have performed a high-precision measurement of the 3α decay from this state using the C12(C12,3α)C12 reaction at EC12=110MeV. The branching ratio of the direct 3α decay was under the detection limit in the present experiment. By comparing with Monte Carlo simulations for three decay mechanisms as the sequential decay through the ground state of Be8, the direct decay with equal energies of three α particles, and the direct decay to the phase space uniformly, we have obtained the upper limit of 0.2% on the direct 3α decay.

AB - The direct 3α decay branch from the 02+ state at Ex=7.65MeV in C12, which is known as the Hoyle state, is considered to affect the triple-α reaction rate strongly and to give crucial information on its structure. We have performed a high-precision measurement of the 3α decay from this state using the C12(C12,3α)C12 reaction at EC12=110MeV. The branching ratio of the direct 3α decay was under the detection limit in the present experiment. By comparing with Monte Carlo simulations for three decay mechanisms as the sequential decay through the ground state of Be8, the direct decay with equal energies of three α particles, and the direct decay to the phase space uniformly, we have obtained the upper limit of 0.2% on the direct 3α decay.

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Further improvement of the upper limit on the direct 3α decay from the hoyle state in C12

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