Light beam switching element, assembly of same, and control method for same

What is claimed is: 1. An optical beam switching element for switching an incoming optical beam, comprising: a columnar sloped member made of a light-transmissive material comprising a first planar face, a second planar face orthogonal to the first planar face, and a sloped face that is sloped with respect to the first planar face and the second planar face; a polarization switching element, the rear surface of which is mounted to the sloped face; a mirror mounted to the front surface of the polarization switching element; and a polarization grating mounted to the second planar face, wherein the polarization switching element comprises polymer-stabilized blue phase liquid crystal sandwiched between a pair of transparent electrodes, and wherein the polarization grating comprises a director that produces birefringence. 2. The optical beam switching element according to claim 1 , wherein the polarization grating acts as a half-wave plate upon the incoming optical beam. 3. The optical beam switching element according to claim 1 , wherein a columnar correction element is mounted to the optical beam switching element, the columnar correction element provided with: an element body made of a light-transmissive material, comprising a mounting face mounted to the face on which the polarization grating is mounted, and a light-emitting face that is parallel to the mounting face; and a focusing polarization grating having a focusing director that produces birefringence on the light-emitting face to focus light. 4. The optical beam switching element according to claim 3 , wherein the focusing polarization grating is formed so that the wavelength of the focusing director is such that the angle of the incoming optical beam and the angle of the outputted optical beam are symmetrical. 5. The optical beam switching element according to claim 3 , wherein the focusing director is formed such that it has a wavelength that yields half-wave plate functionality at a reference position, and the period thereof gradually shortens symmetrically outward from the reference position. 6. The optical beam switching element according to claim 1 , wherein a non-reflective coating is formed on the faces through which the optical beam passes. 7. The optical beam switching element according to claim 1 , wherein the mirror is a multi-layer film dielectric mirror or a metal mirror. 8. An optical beam switching element assembly comprising: a first set of optical beam switching elements formed by the optical beam switching element according to claim 3 , and an M th set of the optical beam switching elements (wherein M is an integer equal to or greater than 2) according to claim 3 coupled to the first set of optical beam switching elements, wherein coupling is performed by mounting the first planar face on the coupling side to the light-emitting face on the receiving side, and wherein the assembly is formed so that the wavelength of the director of the M th set of optical beam switching elements is ½ M−1 the wavelength of the director of the first set of optical beam switching elements. 9. An optical beam switching element assembly comprising: a first set of optical beam switching elements formed by the optical beam switching element according to claim 3 , and an M th set of the optical beam switching elements (wherein M is an integer equal to or greater than 2) according to claim 3 coupled to the first set of optical beam switching elements, wherein coupling is performed by mounting the first planar face on the coupling side to the light-emitting face on the receiving side, and wherein the assembly is planarly arrayed in a plane XY in an XYZ coordinate system. 10. An optical beam switching element assembly comprising: a first set of optical beam switching elements formed by the optical beam switching element according to claim 3 , and an M th set of the optical beam switching elements (wherein M is an integer equal to or greater than 2) according to claim 3 coupled to the first set of optical beam switching elements, wherein coupling is performed by mounting the first planar face on the coupling side to the light-emitting face on the receiving side, and wherein the first set of optical beam switching elements is disposed in a plane XY, and the second set of optical beam switching elements is arrayed in a raised state from plane XY in the Z-direction in an XYZ coordinate system. 11. The optical beam switching element assembly according to claim 8 , wherein the mounting face and the light-emitting face of the correction element are orthogonally disposed, wherein the element body is provided with a correction sloped face that is sloped with respect to the mounting face and the light-emitting face, and wherein the focusing polarization grating is mounted to the correction sloped face, and a correction mirror is mounted to the front surface of the focusing polarization grating. 12. The optical beam switching element assembly according to claim 8 , wherein lens-type correction elements constituted by a pair of convex lenses with abutting convex surfaces being disposed on the mounting face and the light-emitting face in place of the correction element. 13. The optical beam switching element assembly according to claim 12 , wherein the convex lenses are formed in semicylindrical shapes. 14. An optical beam switching element for switching an incoming optical beam comprising: a columnar sloped member made of a light-transmissive material comprising a first planar face, a second planar face parallel to the first planar face, and a sloped face that is disposed between the first planar face and the second planar face and is sloped with respect to the first planar face and the second planar face; a polarization switching element mounted to the sloped face; a polarization grating mounted to the second planar face, wherein the polarization switching element comprises polymer-stabilized blue phase liquid crystal sandwiched between a pair of transparent electrodes, and wherein the polarization grating has a director that produces birefringence. 15. The optical beam switching element according to claim 14 , wherein the optical beam switching element acts as a half-wave plate upon the incoming optical beam. 16. The optical beam switching element according to claim 14 or 15 , wherein a columnar correction element is mounted to the optical beam switching element, the columnar correction element provided with: an element body made of a light-transmissive material, comprising a mounting face mounted to the face on which the polarization grating is mounted, and a light-emitting face that is parallel to the mounting face; and a focusing polarization grating having a focusing director that produces birefringence on the light-emitting face to focus light. 17. A method of controlling the optical beam switching element according to claim 1 or 14 comprising the step of: performing an inversion process to invert the polarity of the voltage applied to the transparent electrodes is performed.