Image deflector for gun sights

What is claimed is: 1. An optical sighting apparatus comprising: a telescopic sight configured to produce an exit pupil; a reflex sight configured to produce a collimated reflex sight beam; and a beam deflector coupled to an output of the reflex sight, the beam deflector being switchable between an ON position and an OFF position, and including a pair of prisms, each prism of the lair of prisms including a first prism element and a second prism element, in the ON position, the beam deflector being configured to deflect the collimated reflex sight beam to produce a deviated reflex sight beam and to overlap the deviated reflex sight beam with the exit pupil of the telescopic sight, and wherein when the beam deflector is in the OFF position, the collimated reflex sight beam is non-deviated. 2. The optical sighting apparatus of claim 1 , wherein the reflex sight is mounted to the telescopic sight. 3. The optical sighting apparatus of claim 1 , wherein each prism of the pair of prisms is rotatable about an optical axis coincident with the collimated reflex sight beam. 4. The optical sighting apparatus of claim 3 , wherein the first and second prism elements of each prism of the pair of prisms are cemented together. 5. The optical sighting apparatus of claim 3 , wherein the beam deflector is configured to deviate the collimated reflex sight beam by a selected angle of deflection relative to the optical axis, the angle of deflection being selected based on a degree of rotation of the pair of prisms about the optical axis. 6. The optical sighting apparatus of claim 1 , wherein the reflex sight is further configured to produce a reflex sight image, the reflex sight image including a reticule. 7. An apparatus comprising: a reflex sight configured to produce a collimated reflex sight beam directed along an optical axis; a telescopic sight configured to produce an exit pupil; and a beam deflector coupled to an output of the reflex sight, the beam deflector being switchable between an ON position and an OFF position, and including a pair of prisms, each prism of the lair of prisms including a first prism element and a second prism element, in the ON position, the beam deflector being configured to deflect the reflex sight beam by a selected angle of deflection relative to the optical axis to reposition an eyebox of the reflex sight off-axis with respect to the optical axis and remote from the reflex sight, wherein the beam deflector is configured to reposition the eyebox of the reflex sight such that the eyebox overlaps the exit pupil of the telescopic sight, and wherein when the beam deflector is in the OFF position, the collimated reflex sight beam is non-deviated. 8. The apparatus of claim 7 , further comprising a firearm, the reflex sight being mounted to the firearm, and wherein the reflex sight beam includes a reticule representative of an aiming point of the firearm. 9. The apparatus of claim 7 , wherein each prism of the pair of prisms is rotatable about the optical axis. 10. The apparatus of claim 9 , wherein the first and second prism elements of each prism of the pair of prisms are cemented together. 11. The apparatus of claim 10 , wherein materials of the first and second prism elements are selected such that each prism of the pair of prisms is achromatic. 12. The apparatus of claim 9 , wherein the angle of deflection is controlled based on a degree of rotation of the pair of prisms about the optical axis. 13. A method of viewing a remote scene comprising: producing a collimated reflex sight beam with a reflex sight, the collimated reflex sight beam including a reticule, wherein the collimated reflex sight beam represents a first image of the remote scene; directing the collimated reflex sight beam along an optical axis of the reflex sight; producing a second image of the remote scene with a telescopic sight; receiving selection of an ON position of a beam deflector, the beam deflector including a pair of prisms, each prism of the pair of prisms including a first prism element and a second prism element; and deflecting the collimated reflex sight beam by a selected angle of deflection relative to the optical axis to reposition an eyebox of the reflex sight off-axis with respect to the optical axis and remote from the reflex sight with the beam deflector, wherein deflecting the collimated reflex sight beam includes repositioning the eyebox of the reflex sight overlapping an exit pupil of the telescopic sight to simultaneously present the first and second images at the exit pupil. 14. The method of claim 13 , further comprising selecting the angle of deflection by rotating the pair of prisms about the optical axis; and wherein deflecting the collimated reflex sight beam includes passing the collimated reflex sight beam through the pair of prisms. 15. The optical sighting apparatus of claim 1 , wherein the reflex sight is configured to deliver a first image of a remote scene to the exit pupil and the telescopic sight is configured to deliver a second image of the remote scene to the exit pupil, the first and second images being viewable from a single eye position simultaneously at the exit pupil. 16. The optical sighting apparatus of claim 1 , wherein each of the first prism element and the second prism element of each prism of the pair of prisms has an identical geometry. 17. The optical sighting apparatus of claim 16 , wherein the first prism element is made of a first material, and the second prism element is made of a second material, the second material having a different index of refraction from an index of refraction of the first material.