Optical tomographic imaging apparatus

The invention claimed is: 1. An optical tomographic imaging apparatus for obtaining at least a tomographic image of an object based on a plurality of interference lights obtained by interfering (a) a plurality of return lights from the object irradiated with a plurality of measurement lights and (b) a plurality of reference lights corresponding to the plurality of measurement lights, the apparatus comprising: an irradiation unit for irradiating the object with the plurality of measurement lights; and an optical property adjusting unit for adjusting an optical property of at least one of (a) the plurality of measurement lights, (b) the plurality of reference lights, and (c) the plurality of interference lights, wherein the plurality of measurement lights are divided into a plurality of groups, each group including measurement lights having substantially the same distance between an optical axis of the irradiation unit and that of each measurement light, and wherein the optical property adjusting unit applies the same adjusting method for at least one of (a) the measurement lights, (b) reference lights corresponding to the measurement lights, and (c) interference lights obtained by interfering (i) return lights from the object irradiated with the measurement lights and (ii) the reference lights, in a group of the plurality of groups, and applies a different adjusting method for a different group of the plurality of groups. 2. An optical tomographic imaging apparatus according to claim 1 , wherein the optical property adjusting unit is one of: an adjusting unit disposed on a reference light side for adjusting an optical path length difference between the measurement lights and the reference lights; a compensating unit disposed on the reference light side for compensating for a wavelength dispersion difference between a measurement light side and the reference light side; a light quantity adjusting unit disposed on one of the reference light side, the measurement light side, a light source side, and a spectral processing portion side, for adjusting light quantity; and an adjusting unit disposed on the measurement light side for adjusting aberration of the irradiation optical system. 3. An optical tomographic imaging apparatus according to claim 2 , wherein the spectral processing portion is a data processing portion for performing data processing by using a parameter for correcting the optical property for each group including measurement lights having substantially the same distance from the optical axis. 4. An optical tomographic imaging apparatus according to claim 3 , wherein the data processing portion comprises a unit for performing data processing by sharing a parameter for dispersion compensation for each group including measurement lights having substantially the same distance from the optical axis. 5. An optical tomographic imaging apparatus according to claim 1 , in which: an optical path for directing a light from a light source to a position where the light is split into the measurement lights and the reference lights, an optical path for directing the measurement lights to the object, an optical path for directing the reference lights to a reference mirror, and an optical path for directing the interference lights obtained by combining the return lights of the measurement lights and the reference lights reflected by the reference mirror to a spectral processing portion are each comprised of one of an optical fiber and a bulk. 6. A program for causing a computer to execute an imaging method using the optical tomographic imaging apparatus according to claim 1 . 7. An optical tomographic imaging apparatus for obtaining at least a tomographic image of a subject's eye based on a plurality of interference lights obtained by interfering (a) a plurality of return lights from the subject's eye irradiated with a plurality of measurement lights and (b) a plurality of reference lights corresponding to the plurality of measurement lights, the apparatus comprising: an irradiation unit for irradiating an anterior ocular segment of the subject's eye with the plurality of measurement lights at mutually different angles; and an adjusting unit for adjusting optical properties of lights corresponding to the plurality of measurement lights, wherein the optical properties are based on a position and an angle at which the anterior ocular segment is irradiated with the plurality of measurement lights by the irradiation unit. 8. An optical tomographic imaging apparatus according to claim 7 , wherein the irradiation unit irradiates the anterior ocular segment with the plurality of measurement lights through an objective lens, and wherein a distance between an optical axis of the objective lens and a region where the plurality of measurement lights passes through the objective lens corresponds to the position and the angle. 9. An optical tomographic imaging apparatus according to claim 8 , wherein the adjusting unit is provided in common to optical paths of a reference light group corresponding to a measurement light group which is a part of the plurality of measurement lights and is classified based on a distance from the optical axis of the objective lens, and has a dispersion compensation unit for compensating a dispersion of a return light group corresponding to the reference light group. 10. An optical tomographic imaging apparatus according to claim 7 , wherein the adjusting unit has a dispersion compensation unit for compensating a dispersion of the plurality of return lights, wherein the dispersion is based on a position and an angle at which the anterior ocular segment is irradiated with the plurality of measurement lights by the irradiation unit. 11. An optical tomographic imaging apparatus for obtaining at least a tomographic image of an object based on a plurality of interference lights obtained by interfering (a) a plurality of return lights from the object irradiated with a plurality of measurement lights with (b) a plurality of reference lights corresponding to the plurality of measurement lights, the apparatus comprising: an irradiation unit configured to irradiate the object with the plurality of measurement lights; and an optical unit (a) disposed on optical paths of reference lights corresponding to measurement lights obtained by classifying the plurality of measurement lights based on a distance from an optical axis of the irradiation unit and (b) configured to be shared in common with respect to the reference lights, wherein at least one of the classifications of the plurality of measurement lights includes two or more measurement lights. 12. An optical tomographic imaging apparatus according to claim 11 , further comprising a second optical unit that is different from the optical unit and that is disposed on optical paths of reference lights corresponding to measurement lights other than the obtained measurement lights. 13. An optical tomographic imaging apparatus according to claim 11 , wherein the optical unit comprises one of the following units: a dispersion compensation unit configured to compensate dispersions of return lights from the object irradiated with the obtained measurement lights and configured to be shared in common with respect to the reference lights; an optical path length varying unit configured to vary optical path lengths of the reference lights and configured to be shared in common with respect to the reference lights; and a light quantity varying unit configured to vary light quantities of the reference lights and configured to be shared in common with respect to the reference lights. 14. A