Optical element, optical system, imaging apparatus, optical instrument, and stamper

The invention is claimed as follows: 1. An optical system, comprising: an optical element that has a surface, wherein the surface includes a plurality of sub-wavelength structure bodies, wherein the plurality of sub-wavelength structure bodies comprise a plurality of lines of tracks, wherein the plurality of lines of tracks are on or above the surface of the optical element, wherein a first pitch Tp between the plurality of lines of tracks varies in an inter-track direction, wherein a second pitch P between central positions of adjacent sub-wavelength structure bodies varies in a direction perpendicular to the inter-track direction, and wherein a variation width ΔP obtained by the variation of the second pitch P is larger than ΔTp max , where ΔTp max is a maximum value of a plurality of variation widths ΔTp obtained by variation of the first pitch Tp. 2. The optical system according to claim 1 , further comprising: an imaging device including an image region which senses light via the optical element, wherein the surface of the optical element comprises at least one section that scatter incident light and generate scattered light, and wherein an intensity distribution of the scattered light has anisotropy. 3. The optical system according to claim 2 , wherein the intensity distribution of the scattered light is different depending on numerical aperture NA. 4. The optical system according to claim 3 , wherein an intensity per unit solid angle of the intensity distribution of the scattered light is smaller in a range of the numerical aperture NA≤0.8 than in the numerical aperture NA>0.8. 5. The optical system according to claim 2 , wherein a maximum value of intensity distribution of the scattered light in the imaging region is smaller than a maximum value of intensity distribution of the scattered light in a region outside the imaging region. 6. The optical system according to claim 1 , wherein a distance between central positions of two of the plurality of sub-wavelength structure bodies in one line of track of the plurality of lines of tracks varies as compared with a reference pitch. 7. The optical system according to claim 1 , wherein a shape of the plurality of lines of tracks is one of a linear shape or an arc shape. 8. The optical system according to claim 1 , wherein the plurality of sub-wavelength structure bodies form a grid pattern, and wherein the grid pattern is at least one of a hexagonal grid pattern, a quasi-hexagonal grid pattern, a square pattern, or a quasi-square pattern. 9. The optical system according to claim 1 , further comprising: an imaging device that has an imaging region, wherein the imaging region is configured to sense light via the optical element, wherein the imaging region has a rectangular shape that has two sets of sides, and wherein a direction of the plurality of lines of tracks is parallel to an extending direction of one set of sides of the two sets of sides. 10. The optical system according to claim 9 , wherein the two sets of sides include a set of short sides and a set of long sides, and wherein the direction of the plurality of lines of tracks is parallel to an extending direction of the set of long sides. 11. The optical system according to claim 10 , wherein each sub-wavelength structure body of the plurality of sub-wavelength structure bodies is a cone which has a bottom surface of an elliptical shape, wherein the elliptical shape has a long axis and a short axis, and wherein a direction of the long axis of the bottom surface corresponds with the direction of the plurality of lines of tracks. 12. The optical system according to claim 9 , wherein the surface of the optical element has one or more sections, wherein the one or more sections are configured to scatter incident light and generate scattered light. 13. The optical system according to claim 12 , wherein a sum total of components of the scattered light that reaches the imaging region is smaller than a sum total of components that reaches regions different from the imaging region. 14. The optical system according to claim 1 , wherein central positions of the plurality of sub-wavelength structure bodies vary in the inter-track direction at a distance equal to a non-zero natural number with respect to a track direction. 15. The optical system according to claim 6 , wherein the reference pitch is an average of distances between central positions of the plurality of sub-wavelength structure bodies in the one line of track of the plurality of lines of tracks. 16. The optical system according to claim 1 , wherein a reference pitch is calculated based on the second pitch and a third pitch, where the third pitch is measured in an inclined direction with respect to the one line of track of the plurality of lines of tracks. 17. An imaging apparatus, comprising: an optical element that has a surface, wherein the surface includes a plurality of sub-wavelength structure bodies, wherein the plurality of sub-wavelength structure bodies comprise a plurality of lines of tracks, wherein the plurality of lines of tracks are on or above the surface of the optical element, wherein a first pitch Tp between the plurality of lines of tracks varies in an inter-track direction, wherein a second pitch P between central positions of adjacent sub-wavelength structure bodies varies in a direction perpendicular to the inter-track direction, and wherein a variation width ΔP obtained by the variation of the second pitch P is larder than ΔTp max , where ΔTp max is a maximum value of a plurality of variation widths ΔTp obtained by variation of the first pitch Tp. 18. An optical instrument, comprising: an optical element that has a surface, wherein the surface includes a plurality of sub-wavelength structure bodies, wherein the plurality of sub-wavelength structure bodies comprise a plurality of lines of tracks, wherein the plurality of lines of tracks are on or above the surface of the optical element, wherein a first pitch Tp between the plurality of lines of tracks varies in an inter-track direction, wherein a second pitch P between central positions of adjacent sub-wavelength structure bodies varies in a direction perpendicular to the inter-track direction, and wherein a variation width ΔP obtained by the variation of the second pitch P is larger than ΔTp max , where ΔTp max is a maximum value of a plurality of variation widths ΔTp obtained by variation of the first pitch Tp. 19. An optical element, comprising: a plurality of sub-wavelength structure bodies on a surface of the optical element, wherein the plurality of sub-wavelength structure bodies are arranged in a grid pattern, wherein the plurality of sub-wavelength structure bodies comprise a plurality of lines of tracks, wherein the plurality of lines of tracks are on or above the surface, wherein a first pitch Tp between the plurality of lines of tracks varies in an inter-track direction, wherein a second pitch P between central positions of adjacent sub-wavelength structure bodies varies in a direction perpendicular to the inter-track direction, and wherein a variation width ΔP obtained by the variation of the second pitch P is larger than ΔTp max , where ΔTp max is a maximum value of a plurality of variation widths ΔTp obtained by variation of the first pitch Tp. 20. The optical element according to claim 19 , wherein the grid pattern is at least one of a hexagonal grid pattern, a quasi-hexagonal grid pattern, a square pattern, or a