Mask blank substrate, mask blank, transfer mask, and method of manufacturing semiconductor device

The invention claimed is: 1. A mask blank substrate for use in manufacturing a mask blank provided with a thin film for forming a transfer pattern on one of a pair of opposing principal surfaces of a transparent substrate, wherein the principal surface to which the thin film is provided has a surface shape of which, in a case where a shape fitting on a virtual reference surface is carried out and difference data between the principal surface and the virtual reference surface is obtained in a calculation region within an inner side of a circle of 104 mm diameter based on a center of a substrate, a difference between a maximum height and a minimum height within the calculation region of the difference data is λ/8 or less, provided that an exposure wavelength used for transfer is λ, and wherein the virtual reference surface has a shape defined by a Zernike polynomial expressed by a polar coordinate system, which is composed of only terms in which an order of a variable related to a radius is a second or lower order, and includes one or more terms in which an order of a variable related to a radius is a second order. 2. The mask blank substrate according to claim 1 , wherein a determination coefficient R 2 calculated from the difference data is 0.9 or more. 3. The mask blank substrate according to claim 1 , wherein the principal surface to which the thin film is provided has a flatness of 0.2 μm or less in an inner region of a square shape with a side of 132 mm based on a center of a substrate. 4. A mask blank comprising the thin film on one of the principal surfaces of the mask blank substrate according to claim 1 . 5. A transfer mask comprising a transfer pattern formed on the thin film of the mask blank according to claim 4 . 6. The transfer mask according to claim 5 , wherein the transfer mask is placed on a mask stage of an exposure apparatus and is used for exposure and transfer upon a transfer object on a semiconductor substrate, the exposure apparatus having a function to correct a shape of a wavefront of a light, which transmitted from the transfer pattern of the transfer mask, in a shape defined by a Zernike polynomial. 7. A method of manufacturing a semiconductor device comprising placing the transfer mask of claim 5 on a mask stage of an exposure apparatus and transferring a transfer pattern of the transfer mask on a semiconductor substrate by a lithography method. 8. The method of manufacturing a semiconductor device according to claim 7 , wherein the exposure apparatus has a function to correct a shape of a wavefront of a light, which transmitted from the transfer pattern of the transfer mask, in a shape defined by a Zernike polynomial. 9. A mask blank substrate for use in manufacturing a mask blank provided with a thin film for forming a transfer pattern on one of a pair of opposing principal surfaces of a transparent substrate, wherein the principal surface to which the thin film is provided has a surface shape of which, in a case where a shape fitting on a virtual reference surface is carried out and difference data between the principal surface and the virtual reference surface is obtained in a calculation region within an inner side of a circle of 90 mm diameter based on a center of a substrate, a difference between a maximum height and a minimum height within the calculation region of the difference data is λ/8 or less, provided that an exposure wavelength used for transfer is λ, and wherein the virtual reference surface has a shape defined by a Zernike polynomial expressed by a polar coordinate system, which is composed of only terms in which an order of a variable related to a radius is a second or lower order, and includes one or more terms in which an order of a variable related to a radius is a second order. 10. The mask blank substrate according to claim 9 , wherein a determination coefficient R 2 calculated from the difference data is 0.9 or more. 11. The mask blank substrate according to claim 9 , wherein the principal surface to which the thin film is provided has a flatness of 0.2 μm or less in an inner region of a square shape with a side of 132 mm based on a center of a substrate. 12. A mask blank comprising the thin film on one of the principal surfaces of the mask blank substrate according to claim 9 . 13. A mask blank provided with a thin film for forming a transfer pattern on one of a pair of opposing principal surfaces of a transparent substrate, wherein a surface of the thin film has a surface shape of which, in a case where a shape fitting on a virtual reference surface is carried out and difference data between the principal surface and the virtual reference surface is obtained in a calculation region within an inner side of a circle of 104 mm diameter based on a center of a substrate, a difference between a maximum height and a minimum height within the calculation region of the difference data is λ/8 or less, provided that an exposure wavelength used for transfer is λ, and wherein the virtual reference surface has a shape defined by a Zernike polynomial expressed by a polar coordinate system, which is composed of only terms in which an order of a variable related to a radius is a second or lower order, and includes one or more terms in which an order of a variable related to a radius is a second order. 14. The mask blank according to claim 13 , wherein a determination coefficient R 2 calculated from the difference data is 0.9 or more. 15. The mask blank according to claim 13 , wherein a surface of the thin film has a flatness of 0.2 μm or less in an inner region of a square shape with a side of 132 mm based on a center of a substrate. 16. A transfer mask comprising a transfer pattern formed on the thin film of the mask blank according to claim 13 . 17. The transfer mask according to claim 16 , wherein the transfer mask is placed on a mask stage of an exposure apparatus and is used for exposure and transfer upon a transfer object on a semiconductor substrate, the exposure apparatus having a function to correct a shape of a wavefront of a light, which transmitted from the transfer pattern of the transfer mask, in a shape defined by a Zernike polynomial. 18. A method of manufacturing a semiconductor device comprising placing the transfer mask of claim 16 on a mask stage of an exposure apparatus and transferring a transfer pattern of the transfer mask on a semiconductor substrate by a lithography method. 19. The method of manufacturing a semiconductor device according to claim 18 , wherein the exposure apparatus has a function to correct a shape of a wavefront of a light, which transmitted from the transfer pattern of the transfer mask, in a shape defined by a Zernike polynomial. 20. A mask blank provided with a thin film for forming a transfer pattern on one of a pair of opposing principal surfaces of a transparent substrate, wherein a surface of the thin film has a surface shape of which, in a case where a shape fitting on a virtual reference surface is carried out and difference data between the principal surface and the virtual reference surface is obtained in a calculation region within an inner side of a circle of 90 mm diameter based on a center of a substrate, a difference between a maximum height and a minimum height within the calculation region of the difference data is λ/8 or less, provided that an exposure wavelength used for transfer is λ, and wherein the virtual reference surface has a shape defined by a Zernike polynomial expressed by a polar coordinate system, which is comp