Self-reference holographic imaging system

The invention claimed is: 1. A system for recording a digital hologram of an object, comprising: a partially coherent or coherent source intended to illuminate the object and thus produce a wave diffracted by the object; and a digital sensor intended to record the digital hologram of the object, characterized in that it furthermore comprises a spatial phase modulating assembly consisting of: a spatial phase modulator located between the object and the sensor, associated with: a first image-forming device able to form an image A″ of the object at a non-zero distance Δz 1 from the spatial phase modulator; and a second image-forming device able to form: an image of the plane of the spatial phase modulator in a plane located at a non-zero distance Δz 2 from a plane of the sensor; and an image A′ of the image A″ of the object, in a plane located at a distance Δz′ from the plane of the sensor, the modulating assembly being able to produce in the plane of the sensor a plurality of identical duplicates of the wave diffracted by the object, said identical duplicates being offset from each other but overlapping partially, the identical duplicates forming on the sensor a digital hologram of the object, the hologram being a self-reference hologram. 2. The system for recording a digital hologram as claimed in claim 1 , wherein the spatial phase modulator is a periodic grating. 3. The system for recording a digital hologram as claimed in claim 1 , wherein the modulating assembly is able to produce 4 duplicates in the plane of the sensor. 4. The system for recording a digital hologram as claimed in claim 1 , wherein the source is spatially and/or temporally partially coherent. 5. The system for recording a digital hologram as claimed in claim 1 , wherein the partially coherent or coherent source is a multi-wavelength source. 6. The system for recording a digital hologram as claimed in claim 5 , wherein the object being intended to be illuminated in a preset direction, it comprises a multi-wavelength source with an illumination direction that is different for each wavelength. 7. The system for recording a digital hologram as claimed in claim 1 , wherein the object is intended to be illuminated in transmission or in reflection. 8. The system for recording a digital hologram as claimed in claim 1 , further comprising means for modifying the direction of illumination of the object and thus is able to record, for various illumination directions, one hologram per illumination direction. 9. The system for recording a digital hologram as claimed in claim 1 , further comprising means for engendering a rotation of the object about a given axis, thus making it possible to record, for various angles of rotation, one hologram per angle of rotation. 10. The system for recording a digital hologram as claimed in claim 1 , wherein the sensor is a CCD or CMOS camera. 11. The system for recording a digital hologram as claimed in claim 1 , wherein the first image-forming device comprises a cube beam splitter. 12. The system for recording a digital hologram as claimed in claim 11 , wherein the first image-forming device furthermore comprises a lens and/or a microscope objective. 13. The system for recording a digital hologram as claimed in claim 11 wherein the second image-forming device comprises the same cube beam splitter.