Optical element module with minimized parasitic loads

What is claimed is: 1. An optical element module, comprising: an optical element unit comprising an optical element; and a support structure comprising a support device and a contact device connected to the support device, wherein: a surface of the contact device contacts a surface of the optical element unit and exerts a holding force on the optical element unit along a line of action of the holding force; the contact device comprises at least one leaf spring element defining first and second linking sections kinematically in series between the surface of the contact device and the support device so that a first end of the first linking section is adjacent to the surface of the contact device and a second end of the first linking section is adjacent to the second linking section; the first linking section extends from the first end to the second end along a linking direction running transverse to the line of action of the holding force; the second linking section extends along the linking direction; the first and second linking sections interface at an interface point located substantially within a reference plane; the first and second linking sections are arranged substantially on opposite sides of the reference plane; the reference plane comprises the line of action of the holding force; the reference plane runs transverse to the linking direction; and the first and second linking sections are elastically deformed in response to a contact force introduced into the surface of the contact device along the line of action of the holding force so that the interface point is a point of inflection of the at least one leaf spring element and so that, along the linking direction, one of the first and second linking sections is concave and the other of the first and second linking sections is convex. 2. The optical element module according to claim 1 , wherein at least one of the first linking section and the second linking section comprises an elastic hinge element; the elastic hinge element being elastically deformed in response to the holding force. 3. The optical element module according to claim 1 , wherein the contact device comprises a contact element and a mounting element connected to the support device; the surface of the contact device is a surface of the contact element; the contact element, along the linking direction, extending on both sides of the reference plane; the contact element extending along a transverse direction, the transverse direction running transverse to the line of action of the holding force and the linking direction, the first linking section and the second linking section being formed by two leaf spring elements; the leaf spring elements, along the transverse direction, being arranged on opposite sides of the contact element; each of the leaf spring elements, at a first end located on one side of the reference plane, being connected to the contact element and, at a second end located on the other side of the reference plane, being connected to the mounting element. 4. The optical element module according to claim 1 , wherein the first linking section and the second linking section, in response to the holding force, experiencing a bending moment about a bending axis running transverse to a bending plane, the bending plane being defined by the line of action of the holding force and the linking direction; the first linking section and the second linking section being arranged such that, along the linking direction, the bending moment changes from a positive value to a negative value at a point of zero bending moment; the point of zero bending moment being the point of inflection. 5. The optical element module according to claim 1 , wherein the surface of the contact device exerts a holding contact pressure on the surface of the optical element; the first linking section and the second linking section being deformed in such a manner that the holding contact pressure has a substantially even distribution over the surface of the optical element unit. 6. The optical element module according to claim 1 , wherein the contact device is a monolithic component. 7. The optical element module according to claim 1 , wherein the contact device is arranged to define a tilt axis of a tilt motion of the surface of the contact device, the tilt motion resulting from a contact force introduced into the surface of the contact device along the line of action of the holding force; the tilt axis being at least one of located close to the surface of the contact device and located substantially within the surface of the contact device. 8. The optical element module according to claim 7 , wherein the surface of the contact device defines a contact plane for the surface of the optical element unit and a maximum contact surface length dimension in the contact plane in a direction transverse to the tilt axis; a distance between the surface of the contact device and the tilt axis being at least one of less than 20% of the maximum contact surface length dimension and less than 5% of the maximum contact surface length dimension. 9. The optical element module according to claim 7 , wherein the tilt axis is defined by at least one of the first linking section and the second linking section. 10. The optical element module according to claim 9 , wherein the at least one leaf spring element being at least one of located in proximity to and located substantially within a contact plane for the surface of the optical element unit, the contact plane being defined by the surface of the contact device. 11. The optical element module according to claim 7 , wherein the tilt axis is a first tilt axis of a first tilt motion of the surface of the contact device and the contact device is arranged to define a second tilt axis of a second tilt motion of the surface of the contact device, the second tilt motion resulting from a contact force introduced into the surface of the contact device along the line of action of the holding force; the second tilt axis running transverse to the first tilt axis; the second tilt axis being at least one of located close to the surface of the contact device and located substantially within the surface of the contact device. 12. The optical element module according to claim 11 , wherein at least one of the first tilt axis and the second tilt axis is defined by at least one of the first linking section and the second linking section. 13. The optical element module according to claim 7 , wherein at least one of the first linking section and the second linking section comprises at least one elastic hinge element defining the tilt axis. 14. The optical element module according to claim 7 , wherein at least one of the first linking section and the second linking section comprises at least one leaf spring element defining the tilt axis. 15. The optical element module according to claim 7 , wherein the tilt axis is defined by at least two elastically deformable elements of the contact device. 16. The optical element module according to claim 15 , wherein the contact device comprises two leaf spring elements; each of the leaf spring elements extending in a leaf spring plane and being arranged such that the leaf spring planes intersect at a line of intersection, the line of intersection defining the tilt axis. 17. The optical element module according to claim 15 , wherein the contact device comprises three elastically deformable strut elements; each of the strut elements having a strut axis and being arranged such that t