Radiation image reading device

The invention claimed is: 1. A radiation image reading device comprising: a light scanning unit configured to scan excitation light along a scan line with respect to a surface of a recording medium having a radiation image recorded thereon; and a light detection unit configured to detect signal light emitted from the surface of the recording medium by the scanning of the excitation light within a detection surface including the scan line and intersecting the surface of the recording medium; wherein the light detection unit is a multi-pixel photon counter including a plurality of photodetector elements arranged along a direction parallel to the scan line, wherein electric signals output from the plurality of photodetector elements arranged along the direction parallel to the scan line are added and are output from the light detection unit, and wherein the light scanning unit is configured to move the spot-shaped excitation light along the scan line. 2. The radiation image reading device according to claim 1 , wherein, within the detection surface, a width of a detection region of the signal light is longer than a width of a scan region of the excitation light in the surface of the recording medium. 3. The radiation image reading device according to claim 1 , further comprising: an optical element is disposed between the light detection unit and the surface of the recording medium, and configured to allow the excitation light reflected from the surface of the recording medium and the signal light emitted from the surface of the recording medium to be incident to the light detection unit, the optical element converging the excitation light reflected from the surface of the recording medium and the signal light emitted from the surface of the recording medium within a surface perpendicular to the detection surface, and not converging the excitation light reflected from the surface of the recording medium and the signal light emitted from the surface of the recording medium within the detection surface. 4. The radiation image reading device according to claim 1 , further comprising: an optical filter disposed between the light detection unit and the surface of the recording medium, wherein each of a transmittance when the excitation light reflected from the surface of the recording medium is transmitted through the optical filter and a transmittance when the signal light emitted from the surface of the recording medium at an angle larger than a predetermined angle with respect to a direction perpendicular to the scan line within the detection surface is transmitted through the optical filter is smaller than a transmittance when the signal light emitted from the surface of the recording medium at an angle smaller than the predetermined angle with respect to a direction perpendicular to the scan line within the detection surface is transmitted through the optical filter.