Abstract: A high power zoom lens system includes, in order from the object side: a first lens group having a positive refractive power and remaining stationary during zooming; a second lens group having a negative refractive power and moving during zooming; a third lens group and a fourth lens group having a positive refractive power and being movable relative to each other to correct image plane variation accompanied by zooming; and a fifth lens group having a positive refractive power and including an aperture diaphragm, the fifth lens group being used for forming an image. The second lens group and a composite lens group formed by combining the third lens group and the fourth lens group pass simultaneously through ?1× magnification points of the groups during zooming from a wide-angle end to a telephoto end. The fourth lens group has at least one aspheric surface.

Abstract: A high power zoom lens system includes, in order from the object side: a first lens group having a positive refractive power and remaining stationary during zooming; a second lens group having a negative refractive power and moving during zooming; a third lens group and a fourth lens group having a positive refractive power and being movable relative to each other to correct image plane variation accompanied by zooming; and a fifth lens group having a positive refractive power and including an aperture diaphragm, the fifth lens group being used for forming an image. The second lens group and a composite lens group formed by combining the third lens group and the fourth lens group pass simultaneously through ?1×magnification points of the groups during zooming from a wide-angle end to a telephoto end. The fourth lens group has at least one aspheric surface.

Abstract: A focusing group G1 is disposed on an object side relative to a variator group G2. The focusing group G1 includes, in order from the object side, a first group G11 having a positive refractive power, a second group G12 having a positive refractive power, and a third group G13 having a positive refractive power. The first group G11 has, in order from the object side, at least one concave lens (L11) and at least one convex lens. When focusing from an infinitely distant object to a close object, the second group G12 and the third group G13 are moved so that with respect to a change in an object distance, an amount of movement of the second group G12 becomes large in a region near infinity, while an amount of movement of the third group G13 becomes large in a close range.

Abstract: At least one lens element of an imaging lens is arranged on a rear side of a half mirror 10. Also, at least one of the lens element on the rear side or all constituent elements including an imaging element 33 on the rear side of the half mirror 10 are arranged in a decentering state with respect to an optical axis Z1 of lens elements on a front side of the half mirror 10. Even if offset of the optical axis is caused by arrangement of the half mirror 10, such offset can be corrected on the camera-main-body side. Thereby, good imaging performances can be achieved even if the half mirror 10 is used as a light splitting means.

Abstract: The invention provides a lens device comprising: an imaging optical system in which a vibration proof optical system for image shake correction is arranged in a main optical path for focusing a subject image for recording or reproduction and at the same time a light splitting optical system for branching subject light from the main optical path to an optical path for AF use for focusing a subject image for AF use is arranged in the main optical path, wherein the light splitting optical system is disposed at a rear stage of the main optical path relative to the vibration proof optical system.

Abstract: A focusing group G1 is disposed on an object side relative to a variator group G2. The focusing group G1 includes, in order from the object side, a first group G11 having a positive refractive power, a second group G12 having a positive refractive power, and a third group G13 having a positive refractive power. The first group G11 has, in order from the object side, at least one concave lens (L11) and at least one convex lens. When focusing from an infinitely distant object to a close object, the second group G12 and the third group G13 are moved so that with respect to a change in an object distance, an amount of movement of the second group G12 becomes large in a region near infinity, while an amount of movement of the third group G13 becomes large in a close range.

Abstract: A large aperture wide-angle lens includes first and second lens groups separated by a stop. The first lens group includes more than one lens element and the second lens group includes, in order from the object side, a first lens component having at least one aspheric surface, having negative refractive power, and having increasingly negative refractive power toward the periphery, a second lens component having a convex surface on the image side, and a third lens component having at least one aspheric surface and having decreasingly positive refractive power or increasingly negative refractive power toward the periphery. The large aperture wide-angle lens includes six or seven lens components and seven lens elements, and preferably satisfies specified conditions related to f-number and focal length of the wide-angle lens, the maximum image height at the image surface, and the index of refraction of the object-side lens element of the second lens group.

Abstract: A vibration-proof zoom lens comprises a positive first lens group, a negative second lens group, a positive third lens group, a positive fourth lens group, and a positive fifth lens group, which are disposed in this order from a subject side. The second lens group moves toward an image side at a time when magnification changes from a wide-angle end to a telephoto end. The fourth lens group moves to correct variation of an image plane at the time of magnification change. The first, third and fifth lens groups are fixed. The third lens group is composed of first to third subgroups. When vibration occurs, the second subgroup is moved in a plane perpendicular to an optical axis to correct an image position so that an image blur is prevented.

Abstract: A vibration-proof zoom lens comprises a positive first lens group, a negative second lens group, a positive third lens group, a positive fourth lens group, and a positive fifth lens group, which are disposed in this order from a subject side. The second lens group moves toward an image side at a time when magnification changes from a wide-angle end to a telephoto end. The fourth lens group moves to correct variation of an image plane at the time of magnification change. The first, third and fifth lens groups are fixed. The third lens group is composed of first to third subgroups. When vibration occurs, the second subgroup is moved in a plane perpendicular to an optical axis to correct an image position so that an image blur is prevented.

Abstract: A large zoom ratio zoom lens includes four lens groups, a first lens group of positive refractive power, a second lens group of negative refractive power, a third lens group, and a fourth lens group of positive refractive power. The second and third lens groups move for zooming. The first lens group includes, from the object side, a fixed lens subgroup of negative refractive power, a lens subgroup of positive refractive power that moves for focusing adjustment, and a fixed lens subgroup of positive refractive power. The lens subgroup that moves for focusing includes a lens element of negative refractive power on its object side and two lens elements of positive refractive power. To suppress aberrations, specified conditions related to radii of curvature of lens elements and various internal focal lengths are satisfied. The zoom lens also minimizes fluctuations in the angle of view at the wide-angle end during focusing.

Abstract: A large aperture wide-angle lens includes first and second lens groups separated by a stop. The first lens group includes more than one lens element and the second lens group includes, in order from the object side, a first lens component having at least one aspheric surface, having negative refractive power, and having increasingly negative refractive power toward the periphery, a second lens component having a convex surface on the image side, and a third lens component having at least one aspheric surface and having decreasingly positive refractive power or increasingly negative refractive power toward the periphery. The large aperture wide-angle lens includes six or seven lens components and seven lens elements, and preferably satisfies specified conditions related to f-number and focal length of the wide-angle lens, the maximum image height at the image surface, and the index of refraction of the object-side lens element of the second lens group.

Abstract: A high magnification, four-group zoom lens formed of only four lens groups, namely, a first lens group of positive refractive power, a second lens group of negative refractive power, and third and fourth lens groups of positive refractive power. The first lens group includes, in order from the object side, a first lens subgroup that is fixed during focusing and a second lens subgroup that moves during focusing. The second lens group includes, in order from the object side, first and second lens elements having negative refractive power, and first and second doublet components with each formed of a lens element having positive refractive power and a lens element having negative refractive power. To suppress lateral color, specified conditions are satisfied for the Abbe numbers and the refractive indices of the positive refractive power lens elements that are included in the doublet components of the second lens group.

Abstract: A large zoom ratio, four-group zoom lens formed of only four lens groups is disclosed, namely, a first lens group of positive refractive power, a second lens group of negative refractive power, and third and fourth lens groups of positive refractive power. The first lens group includes, in order from the object side, a first lens subgroup that is fixed during focusing and a second lens subgroup that moves during focusing. The first lens group includes, from the object side, a first lens element and positive second, third, fourth, and fifth lens elements. To suppress spherical aberration, on-axis chromatic aberration, and distortion, specified conditions are satisfied for the refractive index, Abbe number, and radii of curvature of the object side lens element, the size of the image on the image plane, and the difference in Abbe numbers of the object side lens element and the lens element adjacent it.

Abstract: A large zoom ratio zoom lens includes four lens groups, a first lens group of positive refractive power, a second lens group of negative refractive power, a third lens group, and a fourth lens group of positive refractive power. The second and third lens groups move for zooming. The first lens group includes, from the object side, a fixed lens subgroup of negative refractive power, a lens subgroup of positive refractive power that moves for focusing adjustment, and a fixed lens subgroup of positive refractive power. The lens subgroup that moves for focusing includes a lens element of negative refractive power on its object side and two lens elements of positive refractive power. To suppress aberrations, specified conditions related to radii of curvature of lens elements and various internal focal lengths are satisfied. The zoom lens also minimizes fluctuations in the angle of view at the wide-angle end during focusing.

Abstract: A high-power, four-group zoom lens is disclosed which is formed of only four lens groups, in order from the object side, a first lens group of positive refractive power, a second lens group of negative refractive power, and third lens group of negative refractive power, and a fourth lens groups of positive refractive power. The fourth lens group includes, in order from the object side, a front lens subgroup and a rear lens subgroup. The rear lens subgroup includes, in order from the object side, a lens component of positive refractive power that includes a lens element, a pair of lens elements that may form a doublet component that includes a lens element of positive refractive power, a doublet component, and a lens component of positive refractive power. Specified conditions are satisfied to minimize lateral color and curvature of field.

Abstract: A high magnification, four-group zoom lens formed of only four lens groups, namely, a first lens group of positive refractive power, a second lens group of negative refractive power, and third and fourth lens groups of positive refractive power. The first lens group includes, in order from the object side, a first lens subgroup that is fixed during focusing and a second lens subgroup that moves during focusing. The second lens group includes, in order from the object side, first and second lens elements having negative refractive power, and first and second doublet components with each formed of a lens element having positive refractive power and a lens element having negative refractive power. To suppress lateral color, specified conditions are satisfied for the Abbe numbers and the refractive indices of the positive refractive power lens elements that are included in the doublet components of the second lens group.

Abstract: A high-power, four-group zoom lens is disclosed which is formed of only four lens groups, in order from the object side, a first lens group of positive refractive power, a second lens group of negative refractive power, and third lens group of negative refractive power, and a fourth lens groups of positive refractive power. The fourth lens group includes, in order from the object side, a front lens subgroup and a rear lens subgroup. The rear lens subgroup includes, in order from the object side, a lens component of positive refractive power that includes a lens element, a pair of lens elements that may form a doublet component that includes a lens element of positive refractive power, a doublet component, and a lens component of positive refractive power. Specified conditions are satisfied to minimize lateral color and curvature of field.

Abstract: A large zoom ratio, four-group zoom lens formed of only four lens groups is disclosed, namely, a first lens group of positive refractive power, a second lens group of negative refractive power, and third and fourth lens groups of positive refractive power. The first lens group includes, in order from the object side, a first lens subgroup that is fixed during focusing and a second lens subgroup that moves during focusing. The first lens group includes, from the object side, a first lens element and positive second, third, fourth, and fifth lens elements. To suppress spherical aberration, on-axis chromatic aberration, and distortion, specified conditions are satisfied for the refractive index, Abbe number, and radii of curvature of the object side lens element, the size of the image on the image plane, and the difference in Abbe numbers of the object side lens element and the lens element adjacent it.

Abstract: A negative first lens group, a positive second lens group, and a positive third lens group are provided in sequence from an object side of a zoom lens. An aperture is provided in the second group of lenses. At the time of zooming operation, the three groups of lenses independently move over an optical axis X. The second group of lenses is constituted of, in sequence from the object side, a biconvex lens group 2A; a lens group 2B formed by cementing two or more lenses together; an aperture; a lens group 2C formed by cementing together two or more lenses; and a lens group 2D whose convex side is oriented toward the image surface side.

Abstract: A negative first lens group, a positive second lens group, and a positive third lens group are provided in sequence from an object side of a zoom lens. An aperture is provided in the second group of lenses. At the time of zooming operation, the three groups of lenses independently move over an optical axis X. The second group of lenses is constituted of, in sequence from the object side, a biconvex lens group 2A; a lens group 2B formed by cementing two or more lenses together; an aperture; a lens group 2C formed by cementing together two or more lenses; and a lens group 2D whose convex side is oriented toward the image surface side.