Illumination device and biometric authentication apparatus

What is claimed is: 1. An illumination device comprising: M light sources provided on a surface of a substrate; a diffraction optical element configured to diffract light from the M light sources to irradiate N illuminating areas into which an illuminating region is segmented; and a control unit configured to turn on L=M/N light sources of each of first through Nth light source groups during first through Nth time intervals, respectively, and successively irradiate the light from the on L light sources of the first through Nth light source groups in time division onto first through N illuminating areas forming the illuminating region, where M and N are natural numbers greater than or equal to 2, and L is a natural number greater than or equal to 1. 2. The illumination device as claimed in claim 1 , wherein an area of the illuminating region is greater than an area occupied by the diffraction optical element and the M light sources on a plane parallel to the surface of the substrate. 3. The illumination device as claimed in claim 1 , wherein a light intensity distribution in the illuminating region formed by combining the first through Nth illuminating areas is uniform. 4. The illumination device as claimed in claim 1 , wherein the first through Nth illuminating areas have identical shapes and identical areas. 5. The illumination device as claimed in claim 4 , wherein the first through Nth illuminating areas have a rectangular shape. 6. The illumination device as claimed in claim 1 , wherein the diffraction optical element comprises an assembly of a plurality of diffraction gratings that have different pitch and rotating direction and are arranged two-dimensionally. 7. The illumination device as claimed in claim 6 , wherein a number of the plurality of diffraction gratings that are arranged two-dimensionally is set according to an area of the illuminating region. 8. The illumination device as claimed in claim 6 , wherein the pitch and the rotating direction of each of the plurality of diffraction gratings are set so that a light intensity in one of two mutually adjacent illuminating areas gradually decreases towards a boundary part of the two mutually adjacent illuminating areas, a light intensity in an other of the two mutually adjacent illuminating areas gradually decreases towards the boundary part, and the two mutually adjacent illuminating areas overlap at the boundary part such that a total light intensity at the boundary part is equal to a light intensity at parts of the two mutually adjacent illuminating areas other than the boundary part. 9. The illumination device as claimed in claim 1 , wherein the M light sources emit light in a wavelength band of a single color. 10. A biometric authentication apparatus comprising: an illumination device including M light sources provided on a surface of a substrate; a diffraction optical element configured to diffract light from the M light sources to irradiate N illuminating areas into which an illuminating region is segmented; and a control unit configured to turn on L=M/N light sources of each of first through Nth light source groups during first through Nth time intervals, respectively, and successively irradiate the light from the on L light sources of the first through Nth light source groups in time division onto first through N illuminating areas forming the illuminating region, where M and N are natural numbers greater than or equal to 2, and L is a natural number greater than or equal to 1; an imaging optical system configured to capture a biometric image of an authentication target, including the illuminating region; and a collating unit configured to collate the biometric image captured by the imaging optical system and a biometric template, for biometric authentication. 11. The biometric authentication apparatus as claimed in claim 10 , wherein the imaging optical system includes a rolling shutter type image sensor, and further comprising: a synchronizing unit configured to synchronize irradiation of light to the first through Nth illuminating areas during the first through Nth time intervals, and acquisition of each line of image data within first through Nth exposure areas of the image sensor corresponding to the first through Nth illuminating areas and transfer of each acquired line of the image data to a buffer. 12. The biometric authentication apparatus as claimed in claim 11 , wherein the first through Nth exposure areas respectively correspond to an area of one line of the image sensor or greater, and less than or equal to one-half a total exposure area of the image sensor. 13. The biometric authentication apparatus as claimed in claim 11 , wherein an overlapping part of two exposure areas of the first through Nth exposure areas, corresponding to an overlapping part of two mutually adjacent illuminating areas, amount to an area of one line of the image sensor or greater. 14. The biometric authentication apparatus as claimed in claim 11 , wherein the synchronizing unit includes a counter configured to count a number of lines of the image data acquired and transferred to the buffer; and a judging unit configured to judge whether the number of lines of the image data transferred to the buffer reached a number of lines existing within one exposure area of the image sensor. 15. The biometric authentication apparatus as claimed in claim 14 , wherein the control unit successively switches the first through Nth light source groups including the light sources to be turned on, until the number of lines of the image data acquired and transferred to the buffer and counted by the counter reaches a total number of lines of the image sensor.