Variable power optical system, optical device, and manufacturing method for variable power optical system

1 . A variable magnification optical system comprising: a first lens group disposed at a most object side, a first focusing lens group disposed at an image side of the first lens group, a second focusing lens group disposed at an image side of the first focusing lens group, and a rear lens group disposed at an image side of the second focusing lens group; upon varying magnification, the first lens group being moved, and an interval between said first lens group and said first focusing lens group, an interval between said first focusing lens group and said second focusing lens group, and an interval between said second focusing lens group and said rear lens group being varied; upon focusing, said first focusing lens group and said second focusing lens group being moved along the optical axis with different trajectories from each other; and the following conditional expression being satisfied: 0.30<| fa/fb|< 0.90 where fa denotes a focal length of said first focusing lens group, and fb denotes a focal length of said second focusing lens group. 2 . A variable magnification optical system comprising: a first lens group disposed at a most object side, a first focusing lens group disposed at an image side of the first lens group, a second focusing lens group disposed at an image side of the first focusing lens group, and a rear lens group disposed at an image side of the second focusing lens group; upon varying magnification, the first lens group being moved, and an interval between said first lens group and said first focusing lens group, an interval between said first focusing lens group and said second focusing lens group, and an interval between said second focusing lens group and said rear lens group being varied; upon focusing, said first focusing lens group and said second focusing lens group being moved along the optical axis with different trajectories from each other; and the following conditional expressions being satisfied: 0.15<| fa|/f 1<0.65 0.15<| fb|/f 1<2.50 where fa denotes a focal length of said first focusing lens group, fb denotes a focal length of said second focusing lens group, and f1 denotes a focal length of said first lens group. 3 . A variable magnification optical system according to claim 2 , wherein the following conditional expression is satisfied: 0.30<| fa/fb|< 0.90 where fa denotes a focal length of said first focusing lens group, and fb denotes a focal length of said second focusing lens group. 4 . A variable magnification optical system according to claim 1 , further comprising at least one intermediate lens group having negative refractive power between said first lens group and said first focusing lens group. 5 . A variable magnification optical system according to claim 1 , wherein at least one of said first focusing lens group and said second focusing lens group has positive refractive power, and said rear lens group has negative refractive power. 6 . A variable magnification optical system according to claim 1 , wherein a lens arranged at a most object side in said first focusing lens group is arranged at an image side of an aperture stop. 7 . A variable magnification optical system according to claim 1 , wherein upon focusing from an infinite distance object to a close distance object, said first focusing lens group is moved toward the image side and said second focusing lens group is moved toward the object side. 8 . A variable magnification optical system according to claim 1 , wherein at least a part of said intermediate lens group is moved to have a component in a direction perpendicular to the optical axis. 9 . A variable magnification optical system according to claim 1 , wherein the following conditional expression is satisfied: 0.20<| fa |/(− fr )<1.00 where fr denotes a focal length of a most object side lens group in said rear lens group. 10 . A variable magnification optical system according to claim 1 , wherein said first focusing lens group consists of two positive lenses and one negative lens. 11 . A variable magnification optical system according to claim 1 , wherein the following conditional expression is satisfied: 0.50< Xat/D 3 a< 3.00 where Xat denotes a distance which said first focusing lens group moves upon focusing from an infinite distance object to a close distance object in a telephoto end state, and D3a denotes a distance from a most object side lens surface of the first focusing lens group to a most image side lens surface of the first focusing lens group. 12 . An optical apparatus equipped with a variable magnification optical system according to claim 1 . 13 . A method for manufacturing a variable magnification optical system comprising: in order from an object side, a first lens group, a first focusing lens group disposed at an image side of the first lens group, a second focusing lens group disposed at an image side of the first focusing lens group, and a rear lens group disposed at an image side of the second focusing lens group; the method comprising the steps of: constructing such that, upon varying magnification, the first lens group is moved, and an interval between said first lens group and said first focusing lens group, an interval between said first focusing lens group and said second focusing lens group and an interval between said second focusing lens group and said rear lens group are varied; constructing such that, upon focusing, said first focusing lens group and said second focusing lens group are moved along the optical axis with different trajectories from each other; constructing such that a shooting magnification in any focal length state is equal to or exceeds −0.5, and constructing such that the following conditional expression is satisfied: 0.30<| fa/fb|< 0.90 where fa denotes a focal length of said first focusing lens group, and fb denotes a focal length of said second focusing lens group. 14 . A method for manufacturing a variable magnification optical system comprising: in order from an object side, a first lens group an intermediate lens group having negative refractive power, a first focusing lens group having positive refractive power, a second focusing lens group having positive refractive power and a rear lens group having negative refractive power; the method comprising the steps of: constructing such that, upon varying magnification from a wide angle end state to a telephoto end state, the first lens group is moved, and an interval between said first lens group and said intermediate lens group, an interval between said intermediate lens group and said first focusing lens group, an interval between said first focusing lens group and said second focusing lens group and an interval between said second focusing lens group and said rear lens group are varied; constructing such that, upon focusing from an infinite distance object to a close distance object, said first focusing lens group and said second focusing lens group are moved along the optical axis with different trajectories from each other; construction such that a shooting magnification in any focal lenght stats is equal to or exceeds −0.5, and constructing such that the following conditional expressions are satisfied: 0.15<| fa|/f 1<0.65 0.15<| fb|/f 1<2.50 where fa denotes a focal length of said first focusing lens group, fb denotes a focal length of said second focusing lens group, and f1 denotes a focal length of said first lens group. 15 . A variable magnification optical system according to claim 1 , wherein a shooting magnification