The present invention has an optical axis, a central region, and a peripheral region extending substantially symmetrically and substantially perpendicular to the optical axis, the central region extending to a first distance, and the peripheral region Radius of curvature that extends from the first distance to the end of the intraocular lens, the central region has a nominal refractive power, and the peripheral region continuously and monotonically varies as a function of the distance to the optical axis. A target aspheric value is obtained at a second distance with respect to the optical axis, and the first distance and the second distance are calculated from the patient's bright-adapted pupil diameter and dimmed pupil diameter, respectively. It relates to an intraocular lens. [Selection] Figure 3本発明は、光軸と、中心領域と、前記光軸に対して実質的に対称且つ実質的に垂直に拡がる周辺領域とを有し、前記中心領域が第1の距離まで拡がり、前記周辺領域が前記第1の距離から前記眼内レンズの端部まで拡がり、前記中心領域が公称屈折力を有し、前記周辺領域が前記光軸に対する前記距離の関数として連続的かつ単調に変化する曲率半径を有し、目標非球面値が前記光軸に対する第2の距離で得られ、前記第1の距離と前記第2の距離が患者の明順応瞳孔径と薄明視瞳孔径から夫々算出される、眼内レンズに関する。【選択図】図3
