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Journal Articles

Analysis of $$n$$ + $$^6$$Li reactions using the continuum-discretized coupled-channels method

Ichinkhorloo, D.*; Matsumoto, Takuma*; Hirabayashi, Yoshiharu*; Kato, Kiyoshi*; Chiba, Satoshi

Journal of Nuclear Science and Technology, 48(11), p.1357 - 1360, 2011/10

 Times Cited Count:6 Percentile:44.45(Nuclear Science & Technology)

The $$n$$ + $$^6$$Li reactions are important not only from the basic interest of the system but also from the application point of view. In this work, we study $$^6$$Li breakup reactions of incident neutron energies 11.5, 14.1 and 18.0 MeV by applying an $$alpha$$ + $$d$$ cluster model to $$^{6}$$Li and using the continuum-discretized coupled-channels approach. At the present energy, our calculation gives almost good agreement with experimental data.

Journal Articles

Systematic description of the $$^6$$Li($$n,n'$$)$$^6$$Li$$^* to d+ alpha$$ reactions with the microscopic coupled-channels method

Matsumoto, Takuma*; Ichinkhorloo, D.*; Hirabayashi, Yoshiharu*; Kato, Kiyoshi*; Chiba, Satoshi

Physical Review C, 83(6), p.064611_1 - 064611_6, 2011/06

 Times Cited Count:21 Percentile:75.65(Physics, Nuclear)

We investigate $$^6$$Li($$n,n'$$)$$^6$$Li$$^* to d + alpha$$ reactions by using the continuum-discretized coupled-channels method with the complex Jeukenne-Lejeune-Mahaux effective nucleon-nucleon interaction. In this study, the $$^6$$Li nucleus is described by a d + $$alpha$$ cluster model. The calculated elastic cross sections for incident energies between 7.47 and 24.0 MeV are in good agreement with experimental data. Furthermore, we show that the neutron spectra for $$^6$$Li breakup states measured at selected angular points and incident energies can be also reproduced systematically.

Oral presentation

$$^6$$Li+n inelastic reactions in the Continuum Discredited Coupled Channels (CDCC) method

Ichinkhorloo, D.*; Matsumoto, Takuma*; Hirabayashi, Yoshiharu*; Kato, Kiyoshi*; Chiba, Satoshi

no journal, , 

The few-body, especially three-body, problem is still an open (and therefore interesting) subject in nuclear physics, and has been studied intensively by various theoretical frameworks. The n + $$^6$$Li reactions are important not only from the basic interest but also from the application point of view. The $$^6$$Li nucleus is well described by the cluster model such as $$alpha$$ + d and $$alpha$$ + p + n. Therefore, it is necessary for us to treat the n + $$^6$$Li system with $$alpha$$ + p + n and $$alpha$$ + p + n + n models. In this work, we study the $$^6$$Li+n inelastic reactions applying the $$alpha$$ + d cluster model to $$^6$$Li and using the continuum-discredited coupled-channels (CDCC) approach.

Oral presentation

Neutron spectra of $$^6$$Li+n inelastic reactions in the continuum discretized coupled channels (CDCC) method

Ichinkhorloo, D.*; Matsumoto, Takuma*; Hirabayashi, Yoshiharu*; Kato, Kiyoshi*; Chiba, Satoshi

no journal, , 

The $$^6$$Li nucleus is well described by the cluster model such as $$alpha$$+$$d$$ and $$alpha$$ + $$p$$ + $$n$$. Therefore, it is necessary for us to treat the n + $$^6$$Li system with $$alpha$$ + $$d$$ + $$n$$ and $$alpha$$ + $$p$$ + $$n$$ + $$n$$ models. In this work, we study the $$^6$$Li+n elastic scattering and inelastic one to the $$^6$$Li breakup state (E$$_x$$ = 2.18 MeV) applying the $$alpha$$ + $$d$$ cluster model to $$^6$$Li and using the continuum-discretized coupled-channels (CDCC) approach.

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