Acousto-optic device and method

The invention claimed is: 1. An acousto-optic device operable to deflect a beam of light, the acousto-optic device comprising: an optically transmissive element to receive the beam of light at an input surface, the beam of light being received from a direction defining an optical axis; a set of acoustic transducers spaced around the optically transmissive element; and a controller operable to activate the acoustic transducers to generate an acoustic wave travelling through the acousto-optic device to intersect with the optical axis; the controller being further operable to selectively activate a first subset of the set of acoustic transducers such that the acoustic wave propagates in a selected direction; and wherein each of the set of acoustic transducers is differently orientated such that the selected direction is controllable through the selection of first subset of acoustic transducers from the set of acoustic transducers, the acousto-optic device thereby being operable to control the direction in which the beam of light is deflected in two dimensions, wherein the controller is further operable to activate a second subset of the set of acoustic transducers, at a delay after the first subset of the set of acoustic transducers is activated, the delay, amplitude, and relative phase at which the second subset of the acoustic transducers is activated being selected so as to at least partially cancel the acoustic wave after it has intersected with the optical axis. 2. An acousto-optic device as claimed in claim 1 wherein the controller is operable to control the frequency, relative phase, and amplitude at which the first subset of acoustic transducers are activated such that the generated acoustic wave exhibits a generally planar wavefront where it intersects with the optical axis. 3. An acousto-optic device as claimed in claim 1 , comprising a plurality of sets of acoustic transducers spaced around the optically transmissive elements, each of the plurality of sets of acoustic transducers being spaced apart along the optical axis of the optically transmissive element. 4. An acousto-optic device as claimed in claim 3 wherein the controller is operable to activate the plurality of sets of acoustic transducers to maintain a target angle at which the beam intersects an acoustic wavefront as the beam propagates through the optically transmissive element. 5. An acousto-optic device as claimed in claim 4 wherein the target angle is the Bragg angle. 6. An acousto-optic device as claimed in claim 1 wherein the optically transmissive element has a surface that is at least partly curved. 7. An acousto-optic device as claimed in claim 1 wherein the optically transmissive element is generally cylindrical. 8. An acousto-optic device as claimed in claim 1 wherein the set of acoustic transducers are distributed around a loop on the optically transmissive element. 9. An acousto-optic device as claimed in claim 1 wherein the beam of light is received normally to the input surface of the optically transmissive element. 10. An acousto-optic device as claimed in claim 1 wherein the optically transmissive element is formed of a glass. 11. An acousto-optic device as claimed in claim 1 wherein the optically transmissive element is formed of a crystal. 12. An acousto-optic device as claimed in claim 1 wherein the set of acoustic transducers comprises at least 5 acoustic transducers. 13. An acousto-optic device as claimed in claim 1 wherein the set of acoustic transducers comprises at least 10 acoustic transducers. 14. An acousto-optic device as claimed in claim 1 wherein the set of acoustic transducers comprises less than 100 acoustic transducers. 15. A LADAR system comprising an acousto-optic device as claimed in claim 1 . 16. A guided missile comprising the LADAR system as claimed in claim 15 . 17. A method of operating an acousto-optic device to deflect a beam of light, the acousto-optic device comprising: an optically transmissive element having an input surface; a set of acoustic transducers spaced around the optically transmissive element, each of the set of acoustic transducers being differently orientated; the method comprising the steps of: a) receiving the beam of light at the input surface from a direction defining an optical axis; b) selectively activating a first subset of the set of acoustic transducers to generate an acoustic wave travelling through the acousto-optic device in a selected direction to intersect with the optical axis; the selected direction being controllable through the selection of first subset of acoustic transducers from the set of acoustic transducers; and c) activating a second subset of the set of acoustic transducers, at a delay after the first subset of the set of acoustic transducers is activated, and selecting the delay, amplitude, and relative phase at which the second subset of the acoustic transducers is activated so as to at least partially cancel the acoustic wave after it has intersected with the optical axis. 18. A method as claimed in claim 17 , wherein the step of selectively activating a first subset of the set of acoustic transducers comprises controlling the frequency, relative phase, and amplitude at which the first subset of acoustic transducers are activated such that the generated acoustic wave exhibits a generally planar wavefront where it intersects with the optical axis. 19. A method as claimed in claim 17 wherein the beam of light is received normally to the input surface of the optically transmissive element.