Mask blank, method of manufacturing phase shift mask, phase shift mask, and method of manufacturing semiconductor device

The invention claimed is: 1. A mask blank having a structure in which, on a transparent substrate, a light shielding film and a hard mask film are laminated in the stated order from the transparent substrate side, the hard mask film being formed of a material containing at least one element selected from silicon and tantalum, the light shielding film being formed of a material containing chromium, and having a structure of three layers wherein a lower layer, an intermediate layer, and an upper layer are laminated in the stated order from the transparent substrate side, the upper layer having a lowest content of chromium in the light shielding film, the intermediate layer having a highest content of chromium in the light shielding film, and containing metallic element indium. 2. The mask blank according to claim 1 , wherein each of the upper layer and the lower layer has a total content of the metallic element that is lower than a total content of the metallic element of the intermediate layer, or does not contain the metallic element. 3. The mask blank according to claim 1 , wherein the upper layer has a highest content of oxygen in the light shielding film. 4. The mask blank according to claim 1 , wherein the lower layer has a total content of the metallic element that is lower than a total content of the metallic element of the intermediate layer, and wherein the upper layer has a lowest total content of the metallic element in the light shielding film, or does not contain the metallic element. 5. The mask blank according to claim 1 , wherein the intermediate layer has a lowest content of oxygen in the light shielding film, or does not contain oxygen. 6. The mask blank according to claim 1 , wherein the hard mask film is formed of a material containing silicon and oxygen. 7. The mask blank according to claim 1 , wherein the light shielding film is capable of being patterned by dry etching using a mixture gas of a chlorine-based gas and an oxygen gas. 8. The mask blank according to claim 1 , wherein the hard mask film is capable of being patterned by dry etching using a fluorine-based gas. 9. The method of manufacturing a phase shift mask using the mask blank of claim 1 , the method comprising the steps of: forming a light shielding pattern in the hard mask film by dry etching using a fluorine-based gas and using as a mask a resist film having a light shielding pattern, which is formed on the hard mask film; forming the light shielding pattern in the light shielding film by dry etching using a mixture gas of a chlorine-based gas and an oxygen gas, and using as a mask the hard mask film, in which the light shielding pattern has been formed; and forming a digging pattern in the transparent substrate by dry etching using a fluorine-based gas and using as a mask a resist film having the digging pattern, which is formed on the light shielding film. 10. A phase shift mask having a structure in which a light shielding film, in which a light shielding pattern is formed, is laminated on one main surface of a transparent substrate having a digging pattern formed on a one main surface side, the light shielding film being formed of a material containing chromium, and having a structure of three layers wherein a lower layer, an intermediate layer, and an upper layer are laminated in the stated order from the transparent substrate side, the upper layer having a lowest content of chromium in the light shielding film, the intermediate layer having a highest content of chromium in the light shielding film, and containing metallic element indium. 11. The phase shift mask according to claim 10 , wherein each of the upper layer and the lower layer has a total content of the metallic element that is lower than a total content of the metallic element of the intermediate layer, or does not contain the metallic element. 12. The phase shift mask according to claim 10 , wherein the upper layer has a highest content of oxygen in the light shielding film. 13. The phase shift mask according to claim 10 , wherein the lower layer has a total content of the metallic element that is lower than a total content of the metallic element of the intermediate layer, and wherein the upper layer has a lowest total content of the metallic element in the light shielding film, or does not contain the metallic element. 14. The phase shift mask according to claim 10 , wherein the intermediate layer has a lowest content of oxygen in the light shielding film, or does not contain oxygen. 15. The phase shift mask according to claim 10 , wherein the light shielding film is capable of being patterned by dry etching using a mixture gas of a chlorine-based gas and an oxygen gas. 16. A method of manufacturing a semiconductor device, comprising an exposure step of patterning and transferring a transfer pattern of a phase shift mask, which is produced by the method of manufacturing a phase shift mask of claim 9 , on a resist film on a substrate by a lithography method using the phase shift mask. 17. A method of manufacturing a semiconductor device, comprising an exposure step of patterning and transferring a transfer pattern of the phase shift mask of claim 10 on a resist film on a substrate by a lithography method using the phase shift mask. 18. The mask blank according to claim 1 , wherein the intermediate layer has a ratio of a content of indium to a total content of chromium and indium of 5% or more and 50% or less. 19. A mask blank having a structure in which, on a transparent substrate, a light shielding film and a hard mask film are laminated in the stated order from the transparent substrate side, the hard mask film being formed of a material containing at least one element selected from silicon and tantalum, the light shielding film being formed of a material containing chromium, and having a structure of three layers wherein a lower layer, an intermediate layer, and an upper layer are laminated in the stated order from the transparent substrate side, the upper layer having a lowest content of chromium in the light shielding film, the intermediate layer having a highest content of chromium in the light shielding film, and containing at least one metallic element selected from indium, tin, and molybdenum, wherein a content of the at least one metallic element in the intermediate layer is greater than those of the lower and the upper layers. 20. The mask blank according to claim 19 , wherein the at least one metallic element is indium and is included only in the intermediate layer.