Light source unit, illuminator, and projector

What is claimed is: 1. An illuminator comprising: a light source unit that includes two or more light source rows each formed of a plurality of light emitting devices and outputs a light beam bundle, each of the two or more light source rows extending in a first direction, the two or more light source rows being arranged along a second direction that intersects the first direction; a first fly-eye lens that is provided in a position downstream of the light source unit and includes a plurality of lenslets; a second fly-eye lens that is provided in a position downstream of the first fly-eye lens; and a condenser lens that is provided in a position downstream of the second fly-eye lens, wherein principal rays of a plurality of first light beams outputted from a first light source row of the two or more light source rows are incident on at least three different lenslets of the plurality of lenslets, the at least three different lenslets being arranged in a row parallel to the first direction, and the light emitting devices of the first light source row are arranged at different locations in the first direction, and at least one of the light emitting devices of the first light source row is at a position in the second direction different from a position in the second direction of at least another one of the light emitting devices of the first light source row, whereby a positional relationship between a principal ray of each of the plurality of first light beams and an optical axis of a lenslet on which the principal ray is incident of the plurality of lenslets is aperiodic over the first light source row, areas over which the respective first light beams outputted from the light source rows are incident on the first fly-eye lens are ellipses, respectively, and longitudinal direction of the ellipses is parallel to the first direction. 2. The illuminator according to claim 1 , wherein the plurality of lenslets are arranged in a lattice pattern along the first direction and the second direction, when the light beam bundle enters the first fly-eye lens, the plurality of first light beams are arranged in the first direction, and an arrangement pitch of the plurality of first light beams in the first direction is a non-integer multiple of an arrangement pitch of the plurality of lenslets in the first direction. 3. The illuminator according to claim 2 , wherein the two or more light source rows comprise a plurality of light source rows, when the light beam bundle enters the first fly-eye lens, the light beam bundle has a cross-section that is similar to a shape of an area where the plurality of lenslets are arranged, the cross-section being parallel to a plane in which the plurality of lenslets are arranged, and the cross-section is smaller than the area where the plurality of lenslets are arranged. 4. The illuminator according to claim 1 , wherein the light source unit further includes a base that supports the two or more light source rows and still further includes two or more reflection elements provided in correspondence with the two or more light source rows, a direction in which the first light source row outputs the plurality of first light beams is roughly parallel to a surface on which the two or more light source rows are arranged, the two or more reflection elements each have one reflection surface, and a first reflection element of the two or more reflection elements is so disposed that the plurality of first light beams outputted from the first light source row reflects off the reflection surface of the first reflection element to enter the first fly-eye lens. 5. A projector comprising: the illuminator according to claim 1 ; a light modulator that modulates light outputted from the illuminator, in accordance with image information; and a projection system that projects the light modulated by the light modulator. 6. A projector comprising: the illuminator according to claim 2 ; a light modulator that modulates light outputted from the illuminator, in accordance with image information; and a projection system that projects the light modulated by the light modulator. 7. A projector comprising: the illuminator according to claim 3 ; a light modulator that modulates light outputted from the illuminator, in accordance with image information; and a projection system that projects the light modulated by the light modulator. 8. A projector comprising: the illuminator according to claim 4 ; a light modulator that modulates light outputted from the illuminator, in accordance with image information; and a projection system that projects the light modulated by the light modulator. 9. An illuminator comprising: a light source unit that outputs a light beam bundle; a first fly-eye lens that is provided in a position downstream of the light source unit and includes a plurality of lenslets; a second fly-eye lens that is provided in a position downstream of the first fly-eye lens; and a condenser lens that is provided in a position downstream of the second fly-eye lens, wherein the light source unit comprises two or more light source rows that include a first light source row, each of the two or more light source rows extending in a first direction, the two or more light source rows being arranged along a second direction that intersects the first direction, the first light source row including light emitting devices, the light emitting devices of the first light source row are arranged at different locations in the first direction, and intervals between the light emitting devices of the first light source row in the first direction are different than intervals between light emitting devices of another light source row of the two or more light source rows in the first direction, principal rays of a plurality of first light beams outputted from the first light source row are incident on different lenslets of the plurality of lenslets, a positional relationship between a principal ray of each of the plurality of first light beams and an optical axis of a lenslet on which the principal ray is incident of the plurality of lenslets is aperiodic over the first light source row, areas over which the respective first light beams outputted from the light source rows are incident on the first fly-eye lens are ellipses, respectively, and longitudinal direction of the ellipses is parallel to the first direction. 10. The illuminator according to claim 9 , wherein the plurality of lenslets are arranged in a lattice pattern along the first direction and the second direction, when the light beam bundle enters the first fly-eye lens, the plurality of first light beams are arranged in the first direction, and an arrangement pitch of the plurality of first light beams in the first direction is a non-integer multiple of an arrangement pitch of the plurality of lenslets in the first direction. 11. The illuminator according to claim 10 , wherein the two or more light source rows comprise a plurality of light source rows, when the light beam bundle enters the first fly-eye lens, the light beam bundle has a cross-section that is similar to a shape of an area where the plurality of lenslets are arranged, the cross-section being parallel to a plane in which the plurality of lenslets are arranged, and the cross-section is smaller than the area where the plurality of lenslets are arranged. 12. The illuminator according to claim 9 , wherein the light source unit further includes a base that supports the two or more light source rows and still further includes two or more reflection elements provided in correspondence with the two or more light source rows, a directi