Dual-Axis Flexure Gimbal Device

What is claimed is: 1 . A flexure unit operable for use with a flexure spring mass body, the flexure unit comprising: a body having an outer surface; a first slot formed in the flexure body through the outer surface, the first slot comprising a first slot portion and a second slot portion extending in different directions; a second slot formed in the flexure body opposite the first slot through the outer surface, the second slot comprising a first slot portion and a second slot portion extending in different directions, wherein the first and second slots, at least in part, define first and second flexures that facilitate flex of the flexure unit in a first rotational degree of freedom. 2 . The flexure unit of claim 1 , wherein the first slot and the second slot are formed substantially identical to each other, and are formed radially around opposing sides of the body. 3 . The flexure unit of claim 1 , wherein the first and second flexures each comprise a linear flexure defined by overlapping portions of the first and second slots. 4 . The flexure unit of claim 1 , wherein the first and second flexures each comprises a curved flexure configuration defined by overlapping portions of the first and second slots. 5 . The flexure unit of claim 1 , further comprising: a third slot formed in the flexure body through the outer surface, the third slot comprising a third slot portion and a second slot portion extending in different directions; a fourth slot formed in the flexure body opposite the third slot through the outer surface, the fourth slot comprising a first slot portion and a second slot portion extending in different directions, wherein the third and fourth slots, at least in part, define third and fourth flexures that facilitate flex of the flexure unit in a second rotational degree of freedom. 6 . The flexure unit of claim 5 , wherein the first and second flexures are radially oriented ninety degrees around the outer surface relative to the third and fourth flexures. 7 . The flexure unit of claim 5 , wherein the first and second slots are formed in a nesting arrangement with the third and fourth slots. 8 . The flexure unit of claim 5 , wherein the first, second, third, and fourth slots are configured the same. 9 . The flexure unit of claim 5 , wherein the body comprises a generally cylindrical shape, and comprises a central aperture formed through a central area of the body to define a radial wall section of the body, wherein the first, second, third, and fourth slots are formed through the radial wall section and are in fluid communication with the central aperture. 10 . The flexure unit of claim 5 , wherein the body comprises a first end and a second end, and a flex section formed between the first end and the second end, wherein the first, second, third, and fourth slots are formed through the flex section, such that the first end is operable to flex relative to the second end in two rotational degrees of freedom. 11 . A flexure unit, comprising: a body; a first longitudinal flexure defined by a first pair of overlapping portions of first and second slots formed in the body; a second longitudinal flexure defined by a second pair of overlapping portions of the first and second slots formed in the body. 12 . The flexure unit of claim 11 , further comprising: a third longitudinal flexure defined by a first pair of overlapping portions of third and fourth slots formed in the body; a fourth longitudinal flexure defined by a second pair of overlapping portions of the third and fourth slots formed in the body. 13 . The flexure unit of claim 12 , wherein the first, second, third, and fourth slots are each formed to comprise at least one of a planar or a nonplanar slot shape. 14 . The flexure unit of claim 12 , wherein the first, second, third, and fourth longitudinal flexures each extend generally parallel to each other and to a longitudinal central axis of the body. 15 . A flexure spring mass body, comprising: a first body section; a second body section operable to bend relative to the first body section; and a flexure diaphragm that interconnects the first body section to the second body section, the flexure diaphragm defined by a first slot formed laterally through the flexure spring mass body about a first plane, and by a second slot formed laterally through the flexure spring mass body about a second plane, wherein the second slot is formed orthogonally relative to the first slot, such that the flexure diaphragm facilitates bending of the second body section relative to the first body section. 16 . The flexure spring mass body of claim 15 , wherein the first slot comprises a length that is less than a corresponding overall length of the first body section, and wherein the second slot comprises a length that is less than a corresponding overall length of the first body section in an orthogonal direction. 17 . The flexure spring mass body of claim 15 , wherein the flexure diaphragm comprises a first pair of opposing flexure sections operable to facilitate bending of the second body section in a first rotational degree of freedom, and a second pair of opposing flexure sections operable to facilitate bending of the second body section in a second rotational degree of freedom. 18 . The flexure spring mass body of claim 15 , further comprising a central aperture that extends centrally through the first and second body sections and through the flexure diaphragm, wherein the central aperture is configured to receive and support a flexure unit operable with the flexure diaphragm to limit an amount of bending of the first and second body sections relative to one another. 19 . The flexure spring mass body of claim 15 , wherein the first and second body sections each comprise a stop portion formed about a peripheral edge portion of the respective first and second body section and adjacent a respective first and second slots, wherein the stop portion operate to limit movement of the second body section relative to the first body section. 20 . A dual-axis flexure gimbal device, comprising: a flexure spring mass body comprising first and second body sections, a flexure diaphragm that interconnects the first and second body sections, and a central aperture formed through the first and second body sections and the flexure diaphragm; and a flexure unit situated in the central aperture and supported by the flexure spring mass body, the flexure unit comprising a plurality of slots defining a plurality of flexures, wherein, in response to bending of the first body section relative to the second body section, the flexure diaphragm is operable to bend in first and second rotational degrees of freedom, and the plurality of flexures of the flexure unit are operable to flex in respective first and second rotational degrees of freedom. 21 . The dual-axis flexure gimbal device of claim 20 , wherein the flexure unit restricts axial movement of the first body section relative to the second body section in any direction. 22 . The dual-axis flexure gimbal device of claim 20 , wherein the first body section comprises an optical mirror interface for mounting to an optical mirror, and wherein the second body section comprises a gimbal support housing interface for mounting to a gimbal support body. 23 . The dual-axis flexure gimbal device of claim 20 , wherein the plurality of flexures of the flexure unit are formed generally par