Holographic display apparatus having steerable viewing

What is claimed is: 1. A holographic display apparatus comprising: a light source configured to output light; a spatial light modulator configured to modulate incident light and thereby reproduce a holographic image; a lens configured to collimate light incident thereon from the light source and to focus light incident thereon from the spatial light modulator; a retroreflective mirror configured to reflect collimated light incident thereon from the lens and thereby change a travel direction of the light incident thereon by 180 degrees; a spatial filter configured to transmit only the holographic image; an eye tracker configured to track a pupil location of an observer; and a controller configured to adjust locations of the light source and the spatial filter in response to information identifying a change in the pupil location of the observer received from the eye tracker. 2. The holographic display apparatus of claim 1 , wherein the light source and the spatial filter are adjacent to each other in a focal plane of the lens. 3. The holographic display apparatus of claim 1 , further comprising a stage, wherein the light source and the spatial filter are mounted on the stage. 4. The holographic display apparatus of claim 1 , wherein the light source and the spatial filter are movable in a direction perpendicular to an optical axis of the lens, and wherein the controller is configured to move the light source and the spatial filter simultaneously in a same direction by a same distance. 5. The holographic display apparatus of claim 1 , wherein the lens comprises a first semicircular region and a second semicircular region, and the light source is configured to provide light to the first semicircular region of the lens. 6. The holographic display apparatus of claim 5 , wherein the retroreflective mirror comprises a first mirror and a second mirror, wherein the first mirror is tilted to face the second mirror and the second mirror is tilted to face the first mirror, wherein the first mirror and the second mirror are symmetrically tilted with respect to an optical axis of the lens, wherein the first mirror is positioned to reflect light incident thereon from the first semicircular region of the lens toward the second mirror; and wherein the second mirror is positioned to reflect light incident thereon from the first mirror toward the second semicircular region of the lens. 7. The holographic display apparatus of claim 1 , wherein the spatial light modulator is disposed on an optical path between the lens and the retroreflective mirror. 8. A heads-up display apparatus comprising: a holographic display apparatus; and an optical system configured to reflect a holographic image reproduced by the holographic display apparatus toward a front mirror of a vehicle, wherein the holographic display apparatus comprises: a light source configured to output light; a spatial light modulator configured to modulate incident light and thereby reproduce the holographic image; a lens configured to collimate light incident thereon from the light source and to focus light incident thereon from the spatial light modulator; a retroreflective mirror configured to reflect collimated light incident thereon from the lens and thereby change a travel direction of the light incident thereon by 180 degrees; a spatial filter configured to transmit only the holographic image; an eye tracker configured to track a pupil location of an observer; and a controller configured to adjust locations of the light source and the spatial filter in response to information identifying a change in the pupil location of the observer received from the eye tracker.