Patent Number: 
Section: claims

1. An exposure mask comprising: a transparent base; and  a transparent film formed on said transparent base, said transparent film having at least one mask member formed in a predetermined mask pattern and having a relatively low exposure beam transparency, and at least one stress changing member changing an in-plane stress distribution of said transparent film. 2. A mask according to claim l, wherein said transparent film is made of a material selected from the group consisting of SiO 2 , SiC, SiON, Si, Si 3 N 4 , Al 2 O 3 , SrO, MgO, Y 2 O 3 , and TiO 2 . 3. A mask according to  claim 1 , wherein the mask member is made of a material selected from the group consisting of Cu, Ni, Zn, Ga, Ge, W, Ta, Au, Re, a Cu-nitride, a Ni-nitride, a Zn-nitride, a Ga-nitride, a Ge-nitride, a W-nitride, Ta-nitride, an Au-nitride, a Re-nitride, a Cu-carbide, a Ni-carbide, a Zn-carbide, a Ga-carbide, a Ge-carbide, a W-carbide, a Ta-carbide, an Au-carbide, a Re-carbide, and an alloy of at least two materials. claim 1 4. A mask according to  claim 1 , wherein said transparent film is partially decreased in thickness to be said stress charging member. claim 1 5. A mask according to  claim 1 , wherein said stress changing member is a transparent member partially deposited on said transparent film. claim 1 6. A mask according to  claim 1 , wherein said transparent film is partially modified to be said stress changing member. claim 1 7. An exposure mask comprising: a transparent base; and  a transparent film formed on said transparent base, said transparent film having at least one mask member formed in a predetermined mask pattern and having a relatively low exposure beam transparency, said transparent film being partially decreased in thickness to change an in-plane stress distribution of said transparent film. 8. A mask according to  claim 7 , wherein said transparent film is partially decreased in thickness to reduce a placement error of said mask member due to said in-plane stress distribution to substantially not more than 14 nm. claim 7 9. An exposure mask comprising: a transparent base;  a transparent film formed on said transparent base, said transparent film having at least one mask member formed in a predetermined mask pattern and having a relatively low exposure beam transparency, and at least one transparent member partially deposited on said transparent film to change an in-plane stress distribution of said transparent film. 10. A mask according to  claim 9 , wherein said transparent member is made of SiO 2 . claim 9 11. A mask according to  claim 9 , wherein said transparent member is formed from the same material as that of said transparent film. claim 9 12. A mask according to  claim 9 , wherein said transparent member is partially deposited to reduce a placement error of said mask member due to said in-plane stress distribution to substantially not more than 18 nm. claim 9 13. An exposure mask comprising: a transparent base;  a transparent film formed on said transparent base, having at least one mask member formed in a predetermined mask pattern and having a relatively low exposure beam transparency, said transparent film being partially modified to change an in-plane stress distribution of said transparent film. 14. A mask according to  claim 13 , wherein said transparent film is partially implant ions to change said in-plane stress distribution of said transparent film. claim 13 15. A mask according to  claim 13 , wherein said transparent film is partially doped impurities to change said in-plane stress distribution of said transparent film. claim 13 16. A mask according to  claim 13 , wherein said transparent film is partially modified to reduce a placement error of said mask member due to said in-plane stress distribution to substantially not more than 30 nm. claim 13 17. A method of manufacturing a mask, comprising the steps of: forming a transparent film on a transparent base;  forming a mask member in said transparent film in a predetermined mask pattern; and  partially decreasing in thickness said transparent film to change an in-plane stress distribution of said transparent film. 18. A method of manufacturing a mask, comprising the steps of: forming a transparent film on a transparent base;  forming a mask member in said transparent film in a predetermined mask pattern; and  partially depositing at least one transparent member on said transparent film to change an in-plane stress distribution of said transparent film. 19. A method of manufacturing a mask, comprising the step of: forming a transparent film on a transparent base;  forming a mask member in said transparent film in a predetermined mask pattern; and partially modifying said transparent film to change an in-plane stress distribution of said transparent film. 20. A method of manufacturing a semiconductor device, comprising the steps of: preparing a wafer using a predetermined material;  forming the circuit pattern on the wafer by lithography using an exposure mask, said exposure mask comprising a transparent base and a transparent film formed on said transparent base, said transparent film having at least one mask member formed in a predetermined chip pattern and having a relatively low exposure beam transparency, and at least one stress changing member changing an in-plane stress distribution of said transparent film; and  dividing said wafer into semiconductor chips.