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Paper detail

Study of transfer reaction channel in $^{12}$C + $^{27}$Al system

The 1p transfer channel in the $^{27}$Al($^{12}$C, $^{11}$B)$^{28}$Si reaction has been studied at E$_{lab}$ = 73, 81 and 85 MeV. The finite range distorted wave Born approximation calculations have been performed using phenomenological optical model potential to analyze the angular distributions for 3 transitions populating the 0.0, 1.78 and 4.62 MeV states of $^{28}$Si and 2 transitions populating the 2.12 and 4.44 MeV states of $^{11}$B via the $^{27}$Al($^{12}$C, $^{11}$B)$^{28}$Si reaction. The spectroscopic strengths as well as spectroscopic factors have been extracted for all the five states. The extracted strength values are compared with shell model calculations.

preprint2011arXivOpen access
Aparajita DeyM. BiswasC. BhattacharyaT. K. RanaS. KunduK. BanerjeeS. BhattacharyaT. K. GhoshG. MukherjeeJ. K. MeenaD. GuptaP. MaliS. MukhopadhyayD. PanditH. PaiS. R. BanerjeeSuresh KumarA. SrivastavaA. ChatterjeeK. RamachandranK. MahataS. PanditS. Santra
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Aparajita DeyM. BiswasC. BhattacharyaT. K. RanaS. KunduK. BanerjeeS. BhattacharyaT. K. GhoshG. MukherjeeJ. K. MeenaD. GuptaP. MaliS. MukhopadhyayD. PanditH. PaiS. R. BanerjeeSuresh KumarA. SrivastavaA. ChatterjeeK. RamachandranK. MahataS. PanditS. Santra

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