This study investigated the elastic scattering of a \(^{\mathrm {17}}\)F\(+^{\mathrm {208}}\)Pb system at different energies using the Continuum-Discretized Coupled Channels (CDCC) method. A microscopic optical model was selected and double-folding potential was used for the \(^{\mathrm {16}}\)O\(+\)target interaction. The real part of the optical model was determined as folding potential and the imaginary part of the optical model was taken as standard volume Woods–Saxon shape. Single-channel and multi-channel CDCC calculations were performed to determine the effect of excited channels. An elastic scattering cross section of the \(^{\mathrm {17}}\)F\(+^{\mathrm {208}}\)Pb system was calculated and its compatibility with experimental data was determined.

本研究使用连续离散耦合通道（CDCC）方法研究了\（^ {\ mathrm {17}} \） F \（+ ^ {\ mathrm {208}} \） Pb系统在不同能量下的弹性散射。选择微观光学模型，并将双折叠势用于\（^ {\ mathrm {16}} \） O \（+ \）目标相互作用。光学模型的实部确定为折叠势，光学模型的虚部确定为标准体积Woods–Saxon形状。执行单通道和多通道CDCC计算以确定激发通道的效果。\（^ {\ mathrm {17}} \） F \（+ ^ {\ mathrm {208}} \）的弹性散射截面计算了铅系统，并确定了其与实验数据的相容性。