Zoom lens and image pickup apparatus including the same

What is claimed is: 1. A zoom lens, comprising, in order from an object side to an image side: a first lens unit having a positive refractive power that does not move for zooming; a second lens unit having a negative refractive power that moves during zooming; and an N-th lens unit having a positive refractive power that does not move for zooming, the N-th lens unit being arranged closest to the image side, wherein the first lens unit comprises in order from the object side to the image side: a first sub-lens unit having a negative refractive power that does not move for focusing; a second sub-lens unit having a positive refractive power that moves along an optical axis during focusing; and a third sub-lens unit having a positive refractive power that does not move for focusing, wherein two lenses, among lenses of the second lens unit, disposed closest to the image side of the second lens unit, comprise a positive lens and a negative lens, and wherein the following conditional expressions are satisfied: −9.0< f 11/ f 1<−0.9; −1.5< f 13/ f 11<−0.5; −3.0×10 −3 <(θ p−θn )/( νp−νn )<0; and 1.7 <nave< 2.0, where f1 represents a focal length of the first lens unit, f11 represents a focal length of the first sub-lens unit, f13 represents a focal length of the third sub-lens unit, θp and νp represent a partial dispersion ratio and an Abbe number of the positive lens, respectively, θn and νn represent a partial dispersion ratio and an Abbe number of the negative lens, respectively, and nave represents an average value of refractive indices of all the lenses of the second lens unit, provided that the Abbe number ν and the partial dispersion ratio θ are respectively expressed as follows: ν=( nd− 1)/( nF−nC ); and θ=( ng−nF )/( nF−nC ), where ng represents a refractive index for a g-line, nF represents a refractive index for an F-line, nd represents a refractive index for a d-line, and nC represents a refractive index for a C-line. 2. The zoom lens according to claim 1 , wherein the following conditional expression is satisfied: −2.5 <f 2 /fw< 0, where f2 represents a focal length of the second lens unit, and fw represents a focal length at a wide angle end of the zoom lens. 3. The zoom lens according to claim 1 , wherein the following conditional expression is satisfied: −5.0< f 1/ f 2<0, where f1 represents a focal length of the first lens unit. 4. The zoom lens according to claim 1 , wherein the second lens unit includes a second positive lens having a refractive index n and an Abbe number v that satisfy the following conditional expressions: 1.8< n< 2.2; and 15<ν<30. 5. The zoom lens according to claim 4 , wherein the second positive lens is a positive lens disposed closest to the object side in the second lens unit. 6. The zoom lens according to claim 1 , wherein the second lens unit includes a second positive lens having a partial dispersion ratio θi and an Abbe number νi that satisfy the following conditional expression: 0.648<θ i+ 2.53×10 −3 ×νi< 0.678. 7. The zoom lens according to claim 1 , wherein the second lens unit comprises three negative lenses and one positive lens. 8. The zoom lens according to claim 1 , wherein the following conditional expressions are satisfied: 1.5< f 1/ fw< 9.0; and −2.7<β nw<− 1.0, where βnw represents a lateral magnification at a wide angle end of the N-th lens unit when an axial ray enters from infinity in a state of focusing on infinity. 9. The zoom lens according to claim 1 , wherein the zoom lens comprises the first lens unit, the second lens unit, a third lens unit that moves during zooming, and the N-th lens unit. 10. A zoom lens comprising in order from an object side to an image side: a first lens unit having a positive refractive power that does not move for zooming; a second lens unit having a negative refractive power that moves during zooming; a third lens unit that moves during focusing; and an N-th lens unit having a positive refractive power that does not move for zooming, the N-th lens unit being arranged closest to the image side, wherein the first lens unit comprises in order from the object side to the image side: a first sub-lens unit having a negative refractive power that does not move for focusing; a second sub-lens unit having a positive refractive power that moves along an optical axis during focusing; and a third sub-lens unit having a positive refractive power that does not move for focusing, wherein two lenses, among lenses of the second lens unit and the third lens unit, disposed closest to the image side comprise a positive lens and a negative lens, and wherein the following conditional expressions are satisfied: −9.0< f 11/ f 1<−0.9; −1.5< f 13/ f 11<−0.5; −3.0×10 −3 <(θ p−θn )/( νp−νn )<0; and 1.7 <nave< 2.0, where f1 represents a focal length of the first lens unit, f11 represents a focal length of the first sub-lens unit, f13 represents a focal length of the third sub-lens unit, θp and νp represent a partial dispersion ratio and an Abbe number of the positive lens, respectively, θn and νn represent a partial dispersion ratio and an Abbe number of the negative lens, respectively, and nave represents an average value of refractive indices of all the lenses of the second lens unit and the third lens unit, provided that the Abbe number v and the partial dispersion ratio θ are respectively expressed as follows: ν=( nd− 1)/( nF−nC ); and θ=( ng−nF )/( nF−nC ), where ng represents a refractive index for a g-line, nF represents a refractive index for an F-line, nd represents a refractive index for a d-line, and nC represents a refractive index for a C-line. 11. The zoom lens according to claim 10 , wherein the following conditional expressions are satisfied: −2.5< f 23/ fw< 0; and −5.0< f 1 /f 23<0, where f23 represents a combined focal length at a wide angle end of the second lens unit and the third lens unit. 12. The zoom lens according to claim 10 , wherein a group of the second lens unit and the third lens unit includes a second positive lens having and a refractive index n23 and an Abbe number ν23 that satisfy the following conditional expressions: 1.8< ni 23<2.2; and 15< νi 23<30. 13. The zoom lens according to claim 10 , wherein a group of the second lens unit and the third lens unit includes a second positive lens having a partial dispersion ratio θi23 and an Abbe number νi23 that satisfy the following conditional expression, 0.648<θ i 23+2.53×10 −3 ×νi 23<0.678. 14. The zoom lens according to claim 10 , wherein the positive lens is a positive lens disposed closest to the object side in the group of the second lens unit and the third lens unit. 15. The zoom lens according to claim 10 , wherein the following conditional expressions are satisfied: 1.5< f 1 /fw< 9.0; and −2.7< βnw<− 1.0, where βnw represents a lateral magnification at a wide angle end of the N-th lens unit when an axial ray enters from infinity in a state of focusing on infinity. 16. The zoom lens according to claim 10 , wherein the zoom lens comprises the first lens unit, the second lens unit, the third lens unit, a fourth lens unit that moves during zooming, and the N-th lens unit. 17. An image pickup apparatus, comprising: a zoom lens, comprising, in order from an object side to an image side: a first lens unit having a positive refractive power that does not move for zooming; a second lens unit having a negative refrac