Holographic display

What is claimed is: 1. A holographic display comprising: a first light source configured to emit a first beam at a first time and a second beam at a second time; a first beam steerer including a first prism unit, the first prism unit including first electrodes and a first refraction surface disposed between the first electrodes; a second beam steerer disposed adjacent to the first beam steerer, the second beam steerer including a second prism unit, the second prism unit including second electrodes and a second refraction surface disposed between the second electrodes, wherein the first prism unit is configured to, in response to a voltage being applied between the first electrodes at the first time, receive the first beam emitted by the first light source, and allow the received first beam to pass through the first refraction surface at a right angle, and the second prism unit is configured to, in response to the voltage being applied between the second electrodes at the first time, allow the first beam passed through the first refraction surface at the right angle to pass through the second refraction surface at the right angle, and wherein the first prism unit is further configured to, in response to no voltage being applied between the first electrodes at the second time, receive the second beam emitted by the first light source, and primarily refract the received second beam, and the second prism unit is further configured to, in response to no voltage being applied between the second electrodes at the second time, secondarily refract the second beam primarily refracted by the first prism unit, to control a propagation direction of the emitted second beam to mimic light that is emitted from a virtual light source; an optical element configured to condense the first beam passed through the second refraction surface at the right angle, and condense the second beam secondarily refracted by the second prism unit; and a spatial light modulator configured to form a three-dimensional (3D) image by modulating the condensed first beam to focus on a first focal point, and modulating the condensed second beam to focus on a second focal point that is a virtual focal point, wherein the holographic display satisfies an equation: A/B=A′/B′, where A denotes a distance between the first light source and the spatial light modulator, B denotes a distance between the spatial light modulator and the first focal point, A′ denotes a distance between the first light source and the virtual light source, and B′ denotes a distance between the first focal point and the virtual focal point. 2. The holographic display of claim 1 , wherein the optical element comprises: a collimating lens configured to collimate the first beam passed through the second refraction surface at the right angle, and collimate the second beam secondarily refracted by the second prism unit; and a field lens configured to form a viewing window of the modulated first beam and the modulated second beam. 3. The holographic display of claim 2 , wherein the collimating lens and the field lens are provided as a single lens. 4. The holographic display of claim 1 , wherein each of the first beam steerer and the second beam steerer comprises an active optical prism, and wherein the active optical prism comprises: a first electrode; a second electrode disposed facing the first electrode; a first medium disposed between the first electrode and the second electrode; and a second medium disposed between the first electrode and the second electrode, the first medium and the second medium having different refractive indexes. 5. The holographic display of claim 4 , wherein the first medium comprises a nonpolar fluid, and wherein the second medium comprises a polar fluid. 6. The holographic display of claim 5 , wherein the first medium comprises oil, and wherein the second medium comprises water. 7. The holographic display of claim 1 , wherein the optical element comprises a wave guide disposed between the second beam steerer and the spatial light modulator. 8. The holographic display of claim 1 , wherein the first beam steerer and the second beam steerer are disposed closer to the first light source than the spatial light modulator. 9. The holographic display of claim 1 , wherein D is a distance between the first light source and the spatial light modulator, and wherein the first beam steerer and the second beam steerer are disposed within a range of D/2 from the first light source. 10. The holographic display of claim 1 , wherein the first light source is further configured to emit coherent light. 11. The holographic display of claim 1 , wherein each of the first beam steerer and the second beam steerer comprises a plurality of prism units, and wherein the plurality of prism units comprise respective: third electrodes; fourth electrodes disposed facing the third electrode; first media disposed between the third electrodes and the fourth electrodes; and second media disposed between the third electrodes and the fourth electrodes, the first media and the second media having different refractive indexes. 12. The holographic display of claim 1 , wherein the optical element comprises a wave guide configured to guide the first beam passing through the second refraction surface at the right angle, and guide the second beam secondarily refracted by the second prism unit, and wherein the spatial light modulator is disposed in a direction different from a straight light propagation direction of the first light source, the first beam steerer, and the second beam steerer.