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A New Measurement of $^{11}$Be($p$,$d$) Transfer Reaction |
| Ying Jiang1, Jian-Ling Lou1**, Yan-Lin Ye1, Dan-Yang Pang2, Jie Chen1, Zhi-Huan Li1, Yu-Cheng Ge1, Qi-Te Li1, Jing Li1, Wei Jiang1, Ye-Lei Sun1, Hong-Liang Zang1, Yun Zhang1, Wei Liu1, Yi-Di Chen1, Gen Li1, N. Aoi3, E. Ideguchi3, H. J. Ong3, J. Lee3, Jin Wu3, Hong-Na Liu4, Chao Wen4, Y. Ayyad4, K. Hatanaka4, D. T. Tran4, T. Yamamoto4, M. Tanaka4, T. Suzuki4, T. T. Nguyen4 |
1School of Physics and State Key Laboratory of Nuclear Physics and Technology, Peking University, Beijing 100871
2School of Physics and Nuclear Energy Engineering, Beijing Key Laboratory of Advanced Nuclear Materials and Physics, Beihang University, Beijing 100191
3Research Centre for Nuclear Physics, Osaka university, Osaka 567-0047, Japan
4Institute of Physical and Chemical Research, Saitama 351-0198, Japan
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| Cite this article: |
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Ying Jiang, Jian-Ling Lou, Yan-Lin Ye et al 2018 Chin. Phys. Lett. 35 082501 |
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Abstract A new $^{11}$Be($p$,$d$) transfer reaction experiment is performed in inverse kinematics with a radioactive $^{11}$Be beam at 26.9$A$ MeV. Three low-lying states, namely the 0$^{+}$ ground state, the 2$^{+}$ state at $E_x=3.37$ MeV, and the multiplet at around 6 MeV in $^{10}$Be, are populated by this one-neutron transfer reaction. These three states in $^{10}$Be are clearly discriminated from the $Q$-value spectrum, which is rebuilt from energies and angles of the recoil deuterons in coincidence with $^{10}$Be. A spectroscopic factor for each state is extracted by comparing the experimental differential cross sections to the theoretical calculation results using the finite range adiabatic distorted wave approximation method with different global nucleon-nucleus potentials. It is found that the newly extracted spectroscopic factors for the 0$^+$ and 2$^+$ states are consistent with the previous ones, but the factor for the multiplet is smaller than the value in the reference, and the possible reason is discussed.
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Received: 02 May 2018
Published: 15 July 2018
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| PACS: |
25.60.Je
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(Transfer reactions)
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25.70.-z
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(Low and intermediate energy heavy-ion reactions)
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24.10.Eq
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(Coupled-channel and distorted-wave models)
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| Fund: Supported by the National Key Research and Development Program of China under Grant No 2018YFA0404403, and the National Natural Science Foundation of China under Grant Nos 11775004 and 11775036. |
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