Fragment mass distribution of the [Formula Presented] reaction via the superdeformed β-vibrational resonance

K. Nishio; H. Ikezoe; Y. Nagame; S. Mitsuoka; I. Nishinaka; L. Duan; K. Satou; S. Goto; M. Asai; H. Haba; K. Tsukada; N. Shinohara; S. Ichikawa; T. Ohsawa

doi:10.1103/PhysRevC.67.014604

Fragment mass distribution of the [Formula Presented] reaction via the superdeformed β-vibrational resonance

K. Nishio, H. Ikezoe, Y. Nagame, S. Mitsuoka, I. Nishinaka, L. Duan, K. Satou, S. Goto, M. Asai, H. Haba, K. Tsukada, N. Shinohara, S. Ichikawa, T. Ohsawa

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

4 Citations (Scopus)

Abstract

We measured, for the first time, the mass distribution of [Formula Presented] fission fragments following the β-vibrational resonance, whose level is formed on the second minimum of the double-humped fission barrier. The distribution shows an asymmetric mass distribution similar to the one observed for thermal neutron-induced fission of [Formula Presented] and isomeric fission of [Formula Presented] This indicates that the [Formula Presented] system following the β-vibrational resonance descends into a fission valley which is identical to the fission valley of the [Formula Presented] isomer and [Formula Presented].

Original language	English
Pages (from-to)	5
Number of pages	1
Journal	Physical Review C - Nuclear Physics
Volume	67
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevC.67.014604
Publication status	Published - 2003
Externally published	Yes

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics

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10.1103/PhysRevC.67.014604

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Nishio, K., Ikezoe, H., Nagame, Y., Mitsuoka, S., Nishinaka, I., Duan, L., Satou, K., Goto, S., Asai, M., Haba, H., Tsukada, K., Shinohara, N., Ichikawa, S., & Ohsawa, T. (2003). Fragment mass distribution of the [Formula Presented] reaction via the superdeformed β-vibrational resonance. Physical Review C - Nuclear Physics, 67(1), 5. https://doi.org/10.1103/PhysRevC.67.014604

Nishio, K, Ikezoe, H, Nagame, Y, Mitsuoka, S, Nishinaka, I, Duan, L, Satou, K, Goto, S, Asai, M, Haba, H, Tsukada, K, Shinohara, N, Ichikawa, S & Ohsawa, T 2003, 'Fragment mass distribution of the [Formula Presented] reaction via the superdeformed β-vibrational resonance', Physical Review C - Nuclear Physics, vol. 67, no. 1, pp. 5. https://doi.org/10.1103/PhysRevC.67.014604

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abstract = "We measured, for the first time, the mass distribution of [Formula Presented] fission fragments following the β-vibrational resonance, whose level is formed on the second minimum of the double-humped fission barrier. The distribution shows an asymmetric mass distribution similar to the one observed for thermal neutron-induced fission of [Formula Presented] and isomeric fission of [Formula Presented] This indicates that the [Formula Presented] system following the β-vibrational resonance descends into a fission valley which is identical to the fission valley of the [Formula Presented] isomer and [Formula Presented].",

author = "K. Nishio and H. Ikezoe and Y. Nagame and S. Mitsuoka and I. Nishinaka and L. Duan and K. Satou and S. Goto and M. Asai and H. Haba and K. Tsukada and N. Shinohara and S. Ichikawa and T. Ohsawa",

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doi = "10.1103/PhysRevC.67.014604",

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T1 - Fragment mass distribution of the [Formula Presented] reaction via the superdeformed β-vibrational resonance

AU - Nishio, K.

AU - Ikezoe, H.

AU - Nagame, Y.

AU - Mitsuoka, S.

AU - Nishinaka, I.

AU - Duan, L.

AU - Satou, K.

AU - Goto, S.

AU - Asai, M.

AU - Haba, H.

AU - Tsukada, K.

AU - Shinohara, N.

AU - Ichikawa, S.

AU - Ohsawa, T.

PY - 2003

Y1 - 2003

N2 - We measured, for the first time, the mass distribution of [Formula Presented] fission fragments following the β-vibrational resonance, whose level is formed on the second minimum of the double-humped fission barrier. The distribution shows an asymmetric mass distribution similar to the one observed for thermal neutron-induced fission of [Formula Presented] and isomeric fission of [Formula Presented] This indicates that the [Formula Presented] system following the β-vibrational resonance descends into a fission valley which is identical to the fission valley of the [Formula Presented] isomer and [Formula Presented].

AB - We measured, for the first time, the mass distribution of [Formula Presented] fission fragments following the β-vibrational resonance, whose level is formed on the second minimum of the double-humped fission barrier. The distribution shows an asymmetric mass distribution similar to the one observed for thermal neutron-induced fission of [Formula Presented] and isomeric fission of [Formula Presented] This indicates that the [Formula Presented] system following the β-vibrational resonance descends into a fission valley which is identical to the fission valley of the [Formula Presented] isomer and [Formula Presented].

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Fragment mass distribution of the [Formula Presented] reaction via the superdeformed β-vibrational resonance

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