@article{Singh_Linda_Giri_Kumar_Ali_Ansari_Sathik_2015, title={Effect of the Critical Angular Momentum on Incomplete Fusion Dynamics}, volume={3}, url={https://jnp.chitkara.edu.in/index.php/jnp/article/view/141}, DOI={10.15415/jnp.2015.31003}, abstractNote={<p>An attempt has been made to calculate the critical angular momentum (ℓ<sub>crit</sub>) from the experimentally measured total ER cross-sections and are compared with Bass model predictions (using PACE-2). A comparison between experimentally measured and theoretically calculated critical angular momentum for the systems <sup>16</sup>O + <sup>45</sup>Sc and <sup>16</sup>O + <sup>74</sup>ge has been done. In case of <sup>16</sup>O + <sup>45</sup>Sc system, it is found that the experimentally measured ℓ<sub>crit</sub> values are slightly lower than the theoretically calculated values at projectile energies from 66 to 114 MeV. the low values of ℓ<sub>crit</sub> associated with ICf-channels for this system suggests that at these projectile energies, ICf may not be strictly associated with peripheral collision. Instead there appears to be deeper penetration of the projectile with the target at these beam energies. But for the system <sup>16</sup>O +<sup>74</sup>ge at projectile energies from 65 to 112 MeV, the experimentally measured ℓ<sub>crit</sub>-values are consistent with theoretically calculated values. this shows that ℓ<sub>crit</sub> -values associated with ICf channels for this system suggests that at these projectile energies, ICf may be associated with peripheral collision.</p>}, number={1}, journal={Journal of Nuclear Physics, Material Sciences, Radiation and Applications}, author={Singh, D. and Linda, S. Bharti and Giri, Pankaj Kumar and Kumar, H. and Ali, Rahbar and Ansari, M. Afzal and Sathik, N. P. M.}, year={2015}, month={Aug.}, pages={13–17} }