Laser oscillator having folding mirror

The invention claimed is: 1. A laser oscillator comprising an optical resonator having an output coupler and a rear mirror positioned on an optical axis, the optical resonator having at least one folding mirror positioned between the output coupler and the rear mirror, wherein at least one folding mirror has a toric surface shape, a saddle surface shape or a cylindrical shape, and wherein at least one of the toric surface shape, the saddle surface shape or the cylindrical shape is configured to rotate about a straight line as a rotation axis which extends through one point on a reflecting surface of the folding mirror and is perpendicular to the reflecting surface of the folding mirror. 2. The laser oscillator as set forth in claim 1 , wherein a minimum value of a curvature radius of the toric surface shape, the saddle surface shape or the cylindrical shape is between 200 meters and 700 meters, at a cross-section where the reflecting surface of the folding mirror represents a concave surface. 3. The laser oscillator as set forth in claim 1 , wherein the optical resonator has at least two folding mirrors having the toric surface shape, the saddle surface shape or the cylindrical shape, wherein a traveling direction of a laser beam in the optical resonator is defined as a Z-axis, X- and Y-axes are defined so as to constitute a right-handed system by the X-, Y- and Z-axes, the X- and Y-axes are transcribed on a tangential plane which contacts each folding mirror at an intersection point between a center axis of the laser beam and each folding mirror, and a cross-section is defined with respect to each folding mirror where the reflecting surface of the folding mirror represents a concave surface and a curvature radius of the toric surface shape, the saddle surface shape or the cylindrical shape is minimum, and wherein the at least two folding mirrors are positioned so that an angle formed by the X-axis transcribed on the tangential plane and an intersection line between the cross-section and the tangential plane with respect to each folding mirror is equal to each other. 4. The laser oscillator as set forth in claim 1 , wherein the optical resonator has at least two folding mirrors having the toric surface shape, the saddle surface shape or the cylindrical shape, wherein a traveling direction of a laser beam in the optical resonator is defined as a Z-axis, X- and Y-axes are defined so as to constitute a right-handed system by the X-, Y- and Z-axes, the X- and Y-axes are transcribed on a tangential plane which contacts each folding mirror at an intersection point between a center axis of the laser beam and each folding mirror, and a cross-section is defined with respect to each folding mirror where the reflecting surface of the folding mirror represents a concave surface and a curvature radius of the toric surface shape, the saddle surface shape or the cylindrical shape is minimum, and wherein the at least two folding mirrors are positioned so that an angle formed by the X-axis transcribed on the tangential plane and an intersection line between the cross-section and the tangential plane with respect to each folding mirror is different from each other by 90 degrees.