Optical system and image pickup apparatus including the same

What is claimed is: 1. An optical system comprising: an aperture stop; an optical member; and a driving unit configured to drive the optical member, wherein the driving unit is configured to drive the optical member so that the optical member is arranged outside the optical path when the optical system focuses on a first focus range between infinity and a first finite distance, and wherein the driving unit is configured to drive the optical member so that the optical member is arranged on the optical path on an image side of the aperture stop when the optical system focuses on a second focus range between a second finite distance shorter than the first finite distance and a third finite distance shorter than the second finite distance, wherein the optical system satisfies a following condition: | dA/fA|< 0.10 where dA is a thickness of the optical member on the optical axis, and fA is a focal length of the optical member, and wherein the second focus range covers an in-focus state that satisfies a following condition: 0.01< KA/LTK< 0.19, and 0.85<|β A|< 1.25 where LTK is a total length of the optical system, KA is a distance on the optical axis from a lens surface vertex closest to the object side of the optical member to an image plane, and βA is a lateral magnification of the optical member. 2. The optical system according to claim 1 , further comprising a focusing lens unit configured to move during a focusing operation and arranged on the image side of the aperture stop. 3. The optical system according to claim 1 , wherein the optical member consists of two lenses or less. 4. The optical system according to claim 1 , wherein the second focus range covers an in-focus state that satisfies a following condition: 0.30<|β K|< 2.70 where βK is an imaging magnification of the optical system. 5. The optical system according to claim 1 , wherein, in the second focus range, the optical member does not move during a focusing operation in the second focus range. 6. The optical system according to claim 1 , wherein the second focus range covers an in-focus state that satisfies a following condition: 0.005< dA/LTK< 0.100. 7. The optical system according to claim 1 , wherein a lens surface closest to the object side of the optical member is concave, and wherein the second focus range covers an in-focus state that satisfies a following condition: −15.0< LTK/rA<− 0.1 where rA is a curvature radius of the lens surface closest to the object side of the optical member. 8. The optical system according to claim 1 , wherein the second focus range covers an in-focus state that satisfies a following condition: 0.75< LT/LTK< 1.20 where LT is a total length of the optical system focused at infinity. 9. An image pickup apparatus comprising: an optical system; and an image pickup element configured to receive an image formed by the optical system, wherein the optical system includes: an aperture stop, an optical member, and a driving unit configured to drive the optical member, wherein the driving unit is configured to drive the optical member so that the optical member is arranged outside the optical path when the optical system focuses on a first focus range between infinity and a first finite distance, and wherein the driving unit is configured to drive the optical member so that the optical member is arranged on the optical path on an image side of the aperture stop when the optical system focuses on a second focus range between a second finite distance shorter than the first finite distance and a third finite distance shorter than the second finite distance, wherein the optical system satisfies a following condition: | dA/fA|< 0.10 where dA is a thickness of the optical member on the optical axis, and fA is a focal length of the optical member, and wherein the second focus range covers an in-focus state that satisfies a following condition: 0.01< KA/LTK< 0.19, and 0.85<|β A|< 1.25 where LTK is a total length of the optical system, KA is a distance on the optical axis from a lens surface vertex closest to the object side of the optical member to an image plane, and βA is a lateral magnification of the optical member. 10. The optical system according to claim 2 , wherein the focusing lens unit is moved toward an object side during focusing from infinity to a near distance.