Patent Number: 055725643
Section: claims

1. Reflection-type mask for X-ray exposure using a beam of substantially parallel X-rays incident into the mask for generating reflected X-rays so as to form a mask pattern image, comprising a substrate composed of X-ray unreflectable material and a multilayer structure of X-ray reflectable material patterned on the substrate, wherein each layer of the multilayer structure has an edge with a slanted surface lying in a direction intersecting said substrate to form a common included angle with the slanted surface of each other layer such that the X-ray beam incident into the multilayer structure is reflected from the interfaces between the layers in a direction parallel to the slanted surfaces of said layers. 2. The reflection-type mask claimed in claim 1, wherein the slanted surfaces are smooth. 3. The reflection-type mask claimed in claim 1, wherein the slanted surfaces extend through the entire thickness of the multilayer structure along said edge. 4. The reflection-type mask claimed in claim 1, wherein the multilayer structure has a cross section forming a parallelogram with the slanted surfaces, and wherein said cross section is included in the incident face to the X-ray beam or parallel to the incident face. 5. The reflection-type mask claimed in claim 1, wherein the substrate is composed of a composition comprising silicon (Si) and wherein the multilayer structure comprises periodical layers of molybdenum (Mo) and silicon (Si). 6. Method of manufacturing a reflection-type mask for X-ray exposure using a beam of substantially parallel X-rays incident into the mask for generating reflected X-rays so as to form a mask pattern image, comprising: (a) forming a multilayer structure of X-ray reflectable material upon a substrate composed of X-ray unreflectable material  (b) forming a resist pattern on the multilayer structure;  (c) irradiating a particle beam onto the resist pattern to effect etching of the multilayer structure in the form of a pattern following the resist pattern such that each patterned multilayer structure has an inclined surface along an edge thereof; and  (d) removing the resist pattern after the completion of the etching process.  (a) forming a multilayer structure of X-ray reflectable material by periodically forming layers of molybdenum (Mo) and silicon (Si) in sequence on the surface of a silicone substrate;  (b) forming a resist pattern on the multilayer structure;  (c) irradiating an ion beam onto the resist pattern to effect etching of the multilayer structure in the form of a pattern following the resist pattern such that each patterned multilayer structure has an inclined surface along an edge thereof; and  (d) removing the resist pattern after the completion of the etching process.  (a) forming a multilayer structure of X-ray reflectable material upon a substrate composed of X-ray unreflectable material;  (b) forming a plurality of resist layers upon said multilayer structure by forming a first resist layer on the multilayer structure for serving as a mask to the etching of the multilayer structure, forming an intermediate layer on the first resist layer for patterning the first resist layer, and forming a second resist layer on the intermediate layer for patterning the intermediate layer;  (c) initiating a first etching process for patterning the second resist layer into a mask pattern;  (d) initiating a second etching process for patterning the intermediate layer as an etching mask for the first resist layer after the first etching process;  (e) initiating a third etching process comprising irradiating a particle beam onto the patterned intermediate layer to effect etching of the first resist layer in the form of a pattern following the patterned intermediate layer such that each patterned first resist layer has an inclined surface along an edge thereof, subsequently etching the multilayer below the patterned first resist layer such that each patterned multilayer has an inclined surface along an edge thereof; and  (f) removing the first resist layer remaining on the multilayer after the completion of the third etching process. 7. The method claimed in claim 6, wherein substantially parallel ion beam is employed as the particle beam. 8. The method claimed in claim 7, wherein said ion beam is composed of inert gas molecules. 9. The method claimed in claim 7, wherein said ion beam is composed of reactive gas molecules. 10. The method claimed in claim 6, further comprising adjusting the incident angle of the particle beam to lie substantially parallel to the exit direction of the beam of X-rays after reflection from the multilayer structure. 11. The method claimed in claim 6, wherein said inclined surface is a smooth surface. 12. The method claimed in claim 6, wherein the inclined surface extends along said edge through the entire thickness of the multilayer. 13. Method of manufacturing a reflection-type mask for X-ray exposure using a beam of substantially parallel X-rays incident into the mask for generating reflected X-rays so as to form a mask pattern image, comprising: 14. Method of manufacturing a reflection-type mask for X-ray exposure using a beam of substantially parallel X-rays incident into the mask for generating reflected X-rays so as to form a mask pattern image, comprising; 15. The method claimed in claim 14, comprising forming the first and second resist layers from resin, and forming the intermediate layer from SiO.sub.2.