Zoom lens and image capture apparatus having the same

What is claimed is: 1 . A zoom lens comprising: a first lens unit having a negative refractive power; a second lens unit having a positive refractive power; and a rear group including two or more lens units, wherein the first lens unit, the second lens unit, and the rear group are disposed in order from an object side toward an image side, wherein a total number of lens units arranged in the zoom lens is five or more, in zooming, the first lens unit is arranged to move, and each interval between adjacent lens units changes, the rear group includes all lens units arranged on the image side of the second lens unit in the zoom lens, a refractive index of a negative lens A disposed closest to an object, among negative lenses included in the first lens unit, is greater than or equal to 1.89, and the following inequalities are satisfied: 2.0< Ra/Da< 100; 10< Rb/Db< 100; −3.5< fa/fw<− 1.5; 0.15< GL/TL< 0.30; and −20<100×( y−y 0)/ y 0<−8 where a radius of curvature of an image-side lens surface of the negative lens A is Ra, a radius of curvature of an object-side lens surface of a lens B disposed adjacent to the image side of the negative lens A is Rb, an air gap between the negative lens A and the lens B is Da, an air gap between the lens B and a lens disposed adjacent to the image side of the lens B is Db, a focal length of the negative lens A is fa, a focal length of the zoom lens at a wide angle end is fw, a distance from a lens surface closest to the object, among lens surfaces of the first lens unit, to a lens surface closest to an image plane, among the lens surfaces of the first lens unit, is GL, a distance from a lens surface closest to the object, among lens surfaces of the zoom lens, to the image plane at the wide angle end is TL, a maximum real image height at the wide angle end is y, and an ideal image height with a maximum view angle of the zoom lens at the wide angle end is y0. 2 . The zoom lens according to claim 1 , wherein the following inequality is satisfied: 1.80 <NdB where a refractive index of the lens B is NdB. 3 . The zoom lens according to claim 1 , further comprising an aperture stop, wherein the following inequality is satisfied: 2.0< d/fw< 15 where a distance from the image-side lens surface of the negative lens A to the aperture stop at the wide angle end is d. 4 . The zoom lens according to claim 1 , further comprising an aperture stop, wherein the following inequality is satisfied: 1.5< d 2/ fw< 5.0 where a distance from an image-side lens surface of the lens B to the aperture stop at the wide angle end is d2. 5 . The zoom lens according to claim 1 , wherein the following inequality is satisfied: −2.5< f 1/ fw<− 0.8 where a focal length of the first lens unit is f1. 6 . The zoom lens according to claim 1 , wherein the lens B is a negative lens. 7 . The zoom lens according to claim 6 , wherein the following inequality is satisfied: −3.5< fb/fw<− 0.8 where a focal length of the lens B is fb. 8 . The zoom lens according to claim 1 , wherein the following inequality is satisfied: 1.2< ft/fw< 2.1 where a focal length of the zoom lens at a telephoto end is ft. 9 . The zoom lens according to claim 1 , wherein the first lens unit consists of three negative lenses and a positive lens disposed on the image side of the three negative lenses. 10 . The zoom lens according to claim 1 , further comprising a lens unit, having a positive refractive power, disposed closest to an image plane. 11 . The zoom lens according to claim 1 , further comprising a lens unit, having a negative refractive power, disposed closest to an image plane. 12 . An image capture apparatus comprising: the zoom lens according to claim 1 ; and an image pickup device arranged to receive light of an image formed by the zoom lens.