Illumination optical system with light-compressing lens arrays having no optical power on one section and image projection apparatus having the same

What is claimed is: 1. An illumination optical system configured to illuminate an image display device using a light flux from a light source, the illumination optical system comprising: a polarization splitter having a first polarization splitting surface configured to split a polarization component of the light flux; a first compression system configured to compress the light flux on each of a first section that contains a normal of the first polarization splitting surface and an optical axis of the illumination optical system, and a second section that contains the optical axis and is orthogonal to the first section; a polarization converter configured to convert non-polarized light into linearly polarized light and that includes a second polarization splitting surface, and is arranged so that a section that contains a normal of the second polarization splitting surface and the optical axis becomes the second section; and a second compression system configured to compress the light flux in the first section and includes: a first lens array that includes a plurality of lens cells configured to split the light flux into a plurality of light fluxes, and is arranged on the light source side with respect to the polarization converter along the optical axis; and a second lens array that includes a plurality of lens cells corresponding to the plurality of lens cell of the first lens array, and is arranged between the first lens array and the polarization converter along the optical axis, wherein both of the first lens array and the second lens array have no optical power in the second section, wherein a light flux from the first compression system is incident on all of the plurality of lens cells of the first lens array in the first section and the second section, and wherein the following conditions are satisfied: 1.1<α<1.5; and 1.1<β<1.5, where α is a compression ratio applied by the second compression system in the first section and β is a compression ratio applied by the first compression system in the first and second sections. 2. The illumination optical system according to claim 1 , wherein: the first lens array has a positive optical power in the first section, at least part of lens cells decentering among the plurality of lens cells in the first lens array, and the second lens array has a negative optical power in the first section, at least part of lens cells decentering among the plurality of lens cells in the second lens array. 3. The illumination optical system according to claim 1 , wherein the first compression system includes: a first optical element that has positive optical powers both in the first section and the second section; and a second optical element that has negative optical powers both in the first section and the second section. 4. The illumination optical system according to claim 3 , wherein the first optical element is an elliptical reflector configured to reflect and condense the light flux from the light source. 5. The illumination optical system according to claim 3 , wherein the first compression system is an afocal system. 6. The illumination optical system according to claim 3 , wherein the first lens array is integrated with the second optical element. 7. The illumination optical system according to claim 1 , wherein the following condition is satisfied: 1.0< f 1/ f 2<1.5, where f1 is a focal length of the plurality of lens cells in the first lens array in the second section, and f2 is a focal length of the plurality of lens cells in the first lens array in the first section. 8. The illumination optical system according to claim 1 , wherein the first compression system is arranged on the light source side with respect to the second compression along the optical axis. 9. An image projection apparatus comprising: an image display device; and an illumination optical system configured to illuminate the image display device using light flux from a light source, wherein the illumination optical system includes: a polarization splitter having a first polarization splitting surface configured to split a polarization component of the light flux; a first compression system configured to compress the light flux on each of a first section that contains a normal of the first polarization splitting surface and an optical axis of the illumination optical system, and a second section that contains the optical axis and is orthogonal to the first section; a polarization converter configured to convert non-polarized light into linearly polarized light and that includes a second polarization splitting surface, and is arranged so that a section that contains a normal of the second polarization splitting surface and the optical axis becomes the second section; and a second compression system configured to compress the light flux in the first section and includes: a first lens array that includes a plurality of lens cells configured to split the light flux into a plurality of light fluxes, and is arranged on the light source side with respect to the polarization converter along the optical axis; and a second lens array that includes a plurality of lens cells corresponding to the plurality of lens cell of the first lens array, and is arranged between the first lens array and the polarization converter along the optical axis, wherein both of the first lens array and the second lens array have no optical power in the second section, wherein a light flux from the first compression system is incident on all of the plurality of lens cells of the first lens array in the first section and the second section, and wherein the following conditions are satisfied: 1.1<α<1.5; and 1.1<β<1.5, where α is a compression ratio applied by the second compression system in the first section and β is a compression ratio applied by the first compression system in the first and second sections. 10. An illumination optical system configured to illuminate an image display device using a light flux from a light source, the illumination optical system comprising: a polarization splitter having a first polarization splitting surface configured to split a polarization component of the light flux; a first compression system configured to compress the light flux on each of a first section that contains a normal of the first polarization splitting surface and an optical axis of the illumination optical system, and a second section that contains the optical axis and is orthogonal to the first section; a polarization converter configured to convert non-polarized light into linearly polarized light and that includes a second polarization splitting surface, and is arranged so that a section that contains a normal of the second polarization splitting surface and the optical axis becomes the second section; and a second compression system configured to compress the light flux in the first section and includes: a first lens array that includes a plurality of lens cells configured to split the light flux into a plurality of light fluxes, and is arranged on the light source side with respect to the polarization converter along the optical axis; and a second lens array that includes a plurality of lens cells corresponding to the plurality of lens cell of the first lens array, and is arranged between the first lens array and the polarization converter along the optical axis, wherein an angular distribution of the light flux incident upon an entry surface of the image display device in the first section is smaller than an angular distribution in the second section, wherein a light flux from the first compression system is incident on all of the plurality of lens cells of the first len