Fluorescence receiving apparatus and fluorescence receiving method

1 . An apparatus for receiving fluorescence generated from a specimen by focus of phase-modulated excitation light, comprising: light source configured to output an excitation light; a spatial light modulator of a phase modulation type configured to input the excitation light, modulate phase of the excitation light and output the phase-modulated light; a focusing optical system configured to input the phase-modulated light and focus the phase-modulated light to the specimen; a stage configured to support the specimen; a light detector configured to detect fluorescence generated by the phase-modulated light, via the focusing optical system; a controller configured to control the spatial light modulator so as to display a first hologram to modulate a phase of the excitation light at each of a plurality of two-dimensionally arrayed pixels, thereby focusing the phase-modulated light at a plurality of focusing positions of the specimen by the focusing optical system; and a correction unit configured to correct the first hologram based on intensities of the fluorescence at the focusing positions and sensitivity information per reception position specific to the light detector, and, wherein the controller controls the spatial light modulator so as to display the second hologram. 2 . The apparatus according to claim 1 , wherein the correction by the correction unit is performed for each of the plurality of focusing positions. 3 . The apparatus according to claim 1 , wherein the light source outputs a short pulsed laser capable of inducing multiphoton excitation. 4 . The apparatus according to claim 1 , wherein the light detector is a multi-anode type photomultiplier tube. 5 . The apparatus according to claim 1 , wherein the specimen is comprised of a homogeneous fluorescent material without location-dependent variation in a ratio of intensities of the fluorescence generated from the specimen to the phase-modulated light focused to the specimen. 6 . The apparatus according to claim 1 , wherein the correction by the correction unit is performed for each of scanned layers at predetermined intervals along an optical-axis direction of an objective lens included in the focusing optical system. 7 . The apparatus according to claim 6 , wherein scanning for each of the scanned layers is performed in such a manner that the spatial light modulator controls the focusing positions in the optical-axis direction of the objective lens. 8 . A method for receiving fluorescence generated from a specimen mounted on a stage by focus of phase-modulated excitation light, comprising: outputting an excitation light; modulating phase of the excitation light by a spatial light modulator of a phase modulation type and outputtings phase-modulated light; focusing the phase-modulated light to the specimen; detecting fluorescence generated by the phase-modulated light, via the focusing optical system, using a light detector; controlling the spatial light modulator so as to display a first hologram to modulate a phase of the excitation light at each of a plurality of two-dimensionally arrayed pixels, thereby focusing the phase-modulated light at a plurality of focusing positions of the specimen by the focusing optical system; correcting the first hologram based on intensities of the fluorescence at the focusing positions and sensitivity information per reception position specific to the light detector, to generate a second hologram; controlling the spatial light modulator so as to display the second hologram.