Apparatus and method for capturing Fourier hologram

What is claimed is: 1. An apparatus for capturing a Fourier hologram, comprising: a light source generating unit generating a coherent light source; a light source splitting unit splitting the coherent light source into an object beam and a reference beam; a phase generating unit generating spherical wave field data propagated from a point source of a virtual focal plane of a subject to a virtual coordinate plane on an optical path between a focal plane of the subject and an image sensor face and including a spatial light modulator generating a spherical wave field on a space using the reference beam and the spherical wave field data; a wave field synthesizing unit synthesizing an object wave field generated by reflecting the object beam by the subject and the spherical wave field with each other; an image capturing unit capturing an interference pattern formed on the image sensor face by the synthesized spherical wave field and object wave field; and a controller performing Fourier transformation on an image of the interference pattern to calculate an object wave field formed on the focal plane of the subject, and performing auto-focusing using an absolute value image of the calculated object wave field by changing a position of the virtual focal plane using a contrast value of the absolute value image of the calculated object wave field. 2. The apparatus for capturing a Fourier hologram of claim 1 , wherein: the controller changes the position of the virtual focal plane on the basis of a comparison result between the contrast value of the absolute value image of the calculated object wave field and a contrast value of an absolute value image of the previously calculated object wave field. 3. The apparatus for capturing a Fourier hologram of claim 1 , wherein: the controller changes a distance from the focal plane to the image sensor face by a set increment value and updates the increment value until the contrast value of the absolute value image of the calculated object wave field becomes maximum, and a distance from the position of the virtual focal plane to a central coordinate plane of the spatial light modulator that is virtually positioned is calculated on the basis of the distance from the focal plane to the image sensor face. 4. The apparatus for capturing a Fourier hologram of claim 3 , wherein: the controller updates the increment value by a value obtained by dividing a difference between the contrast value of the absolute value image of the calculated object wave field and a contrast value of an absolute value image of the previously calculated object wave field by a set increment ratio. 5. The apparatus for capturing a Fourier hologram of claim 1 , wherein: the phase generating unit further includes: a spherical wave field data generator generating the spherical wave field data and outputting the spherical wave field data to the spatial light modulator; and a beam splitter making the reference beam split by the light source splitting unit incident to the spatial light modulator. 6. The apparatus for capturing a Fourier hologram of claim 5 , wherein: the phase generating unit further includes a filtering optical system removing noise from the spherical wave field. 7. The apparatus for capturing a Fourier hologram of claim 1 , wherein: the wave field synthesizing unit includes: a first beam splitter forming the spherical wave field and the object wave field on the image sensor face; and a second beam splitter transmitting the object beam to the subject and outputting the object wave field reflected from the subject to the first beam splitter.