Patent Number: 051877260
Section: claims

1. An X-ray lithography mask comprising: (a) a carrier of thin material which does not substantially attenuate X-rays passed therethrough and having top and bottom surfaces;  (b) at least one phase shifting feature formed on a surface of the carrier, the feature defined by a region of X-ray phase shifting material of a height selected such that a selected band of X-rays passed therethrough is phase shifted by substantially one-half wavelength of the X-rays, the feature having at least one sharply defined sidewall which is substantially upright with respect to the surface of the carrier, wherein the material forming the feature on the mask is PMMA.  a carrier of thin material which does not substantially attenuate X-rays passed therethrough and having top and bottom surfaces;  (b) at least one phase shifting feature formed on a surface of the carrier, the feature defined by a region of X-ray phase shifting material of a height selected such that a selected band of X-rays passed therethrough is phase shifted by substantially one-half wavelength of the X-rays, the feature having at least one sharply defined sidewall which is substantially upright with respect to the surface of the carrier, wherein the feature formed on the carrier has, in addition to the upright sidewall, at least one sidewall which is slanted at an angle with respect to the surface of the carrier.  (a) a carrier of thin material which does not substantially attenuate X-rays passed therethrough and having top and bottom surfaces;  (b) at least one phase shifting feature formed on a surface of the carrier, the feature defined by a region of X-ray phase shifting material of a height selected such that a selected band of X-rays passed therethrough is phase shifted by substantially one-half wavelength of the X-rays, the feature having at least one sharply defined sidewall which is substantially upright with respect to the surface of the carrier; and  (c) further including at least one spacer formed on the surface of the carrier, the spacer selected from the group of materials which provides substantially no phase shift of X-rays passed therethrough or of a height selected to introduce a full wave phase shift of X-rays passed therethrough or multiples thereof, and wherein there are a plurality of phase shifting features formed of phase shifting material, at least one of the features formed directly on the surface of the carrier and at least one of the features formed on the spacer, whereby when X-rays are passed through the X-ray lithography mask, the patterns formed in a target photoresist under the phase shifting feature on the spacer will be broader than the structures formed in the target photoresist under the phase shifting feature which is on the surface of the carrier.  (a) a phase shift mask having:  (b) a target comprising a layer of photoresist on a substrate, the target photoresist having a top surface spaced closely beneath the phase shift mask and separated therefrom by a gap less than about fifteen micrometers; and  further including at least one spacer formed on the surface of the carrier, the spacer selected from the group of materials which provides substantially no phase shift of X-rays passed therethrough or of a height selected to introduce a full wave phase shift of X-rays passed therethrough or multiples thereof, and wherein there are a plurality of phase shifting features formed of phase shifting material, at least one of the features formed directly on the surface of the carrier and at least one of the features formed on the space, whereby when X-rays are passed through the X-ray lithography mask, the patterns formed in the target photoresist under the phase shifting feature on the spacer will be broader than the structures formed in the photoresist under the phase shifting feature which is on the surface of the carrier.  (a) providing an X-ray lithography mask having a carrier of thin material which does not substantially attenuate X-rays passed therethrough and having top and bottom surfaces, at least one phase shift feature formed on the surface of the carrier defined by a region of phase shifting material of a height such that a selected band of X-rays passed therethrough is phase shifted by substantially one-half wavelength of the X-rays and the phase shifting material is substantially transparent to the X-rays, the feature having at least one sharply defined sidewall which is substantially upright with respect to the surface of the carrier;  (b) providing a target of a layer of X-ray sensitive photoresist on a substrate and positioning the target under the mask and spaced therefrom by a small gap;  (c) passing a beam of substantially collimated X-rays through the mask onto the target to result in substantially complete exposure of the target photoresist in regions thereof that are adjacent to the regions under the sidewall of the phase shift feature including the region under the phase shift feature and with sufficiently low exposure of the target photoresist in the region underlying the upright sidewall of the phase shift feature due to interference effects that the photoresist in such region will not be developed by a photoresist developer; and  (d) developing the target photoresist to remove the fully exposed resist and to leave thin wall structure on the substrate which had been under the upright sidewall of the phase shift feature on the mask.  (a) providing an absorber X-ray mask comprising a carrier and an absorber laid thereon in a pattern corresponding to the desired pattern in the phase shift mask;  (b) passing a beam of substantially collimated X-rays through the absorber mask and onto a photoresist on a phase shift mask carrier spaced closely underneath the mask to expose the resist in all regions outside of the shadow of the absorber and to leave the resist material in the shadow of the mask unexposed, the height of the photoresist selected such that a selected band of X-rays passed therethrough is phase shifted by substantially one-half wavelength of the selected band of X-rays to which the photoresist and carrier are substantially transparent;  (c) developing the photoresist material on the phase shift mask carrier surface to remove the exposed material and leave the unexposed material in the desired pattern corresponding to the phase shift feature on the phase shift mask.  (a) a phase shift mask having:  (b) a target comprising a layer of photoresist on a substrate, the target photoresist having a top surface spaced closely beneath the phase shift mask and separated therefrom by a gap, the photoresist selected such that when the selected ban of X-rays is passed through the phase shifting feature the photoresist will be substantially completely exposed under the phase shifting feature except at regions under the upright sidewall.  (a) a phase shift mask having:  (b) a target comprising a layer of photoresist on a substrate, the target photoresist having a top surface spaced closely beneath the phase shift mask and separated therefrom by a gap less than about fifteen micrometers, wherein the feature formed on the carrier has, in addition to the upright sidewall, at least one sidewall which is slanted at an angle with respect to the surface of the carrier.  (a) a phase shift mask having:  (b) a target comprising a layer of photoresist on a substrate, the target photoresist having a top surface spaced closely beneath the phase shift mask and separated therefrom by a gap less than about fifteen micrometers, wherein the material forming the feature on the mask is PMMA.  (a) providing an X-ray lithography mask having a carrier of thin material which does not substantially attenuate X-rays passed therethrough and having top and bottom surfaces, at least one phase shift feature formed on the surface of the carrier defined by a region of phase shifting material of a height such that a selected band of X-rays passed therethrough is phase shifted by substantially one-half wavelength of the X-rays and wherein the phase shift material is substantially transparent to the X-rays, the feature having at least one sharply defined sidewall which is substantially upright with respect to the surface of the carrier;  (b) providing a target of a layer of X-ray sensitive photoresist on a substrate and positioning the target under the mask and spaced therefrom by a small gap;  (c) passing a beam of X-rays through the mask onto the target to result in substantially complete exposure of the target photoresist in regions thereof that are adjacent to the regions under the sidewall of the phase shift feature including the region under the phase shift feature and with low exposure of the target photoresist in the region underlying the upright sidewall of the phase shift feature due to interference effects; and  (d) developing the target photoresist with a developer for the photoresist. 2. The X-ray lithography mask of claim 1 further including an X-ray absorbing material formed in a pattern on the surface of the carrier, the material forming the phase shifting feature having a portion thereof overlying the X-ray absorbing material. 3. The X-ray lithography mask of claim 1 wherein the feature has a height above the carrier of about 2.5 to 3.0 micrometers. 4. The X-ray lithography mask of claim wherein the carrier is formed of silicon nitride having a thickness of about 1 micrometer or less. 5. AN X-ray lithography mask comprising: 6. The X-ray lithography mask of claim 5 wherein the material forming the phase shift feature is partially absorbent of X-rays passed therethrough. 7. An X-ray lithography mask comprising: 8. An X-ray lithography mask and target set comprising: 9. A method of producing microstructures by X-ray lithogrpahy comprising: 10. The method of claim 9 wherein the gap between the mask and the target photoresist is ten micrometers or less. 11. The method of claim 9 wherein the step of passing a beam of substantially collimated X-rays is carried out by providing X-rays from a synchrotron and passing the X-ray flux from the synchrotron through the mask to the target photoresist. 12. The method of claim 9 wherein the target photoresist is formed of PMMA. 13. The method of claim 9 wherein the photoresist has a sharply defined resist exposure threshold and wherein the region in the target resist underlying the vertical sidewall of the phase shift feature receives less than the exposure threshold of the resist whereas the regions adjacent thereto receive greater exposure than the X-ray exposure threshold resist so as to provide, after developing of the exposed photoresist, sharply defined thin wall structures formed by the remaining photoresist on the 14. The method of claim 9 wherein the mask includes at least one phase shift feature having at least one upright sidewall and, in addition to the upright sidewall, at least one sidewall which is slanted with respect to the carrier so that no significant interference effects take place under the slanted sidewall as the X-rays are passed therethrough and wherein all of the photoresist under the slanted sidewall in the target photoresist is removed by the developer. 15. The method of claim 14 wherein the feature having a slanted sidewall has two slanted sidewalls which intersect and define the ends of an upright sidewall so that after passing the X-rays through the mask and developing the photoresist, an isolated open thin wall structure formed of the undeveloped photoresist is left remaining on the substrate. 16. The method of claim 9 wherein the X-ray mask further includes an X-ray absorber formed in a pattern on the surface of the carrier and wherein the material of the phase shift feature has a portion thereof which overlies the absorber structure, such that when X-rays are passed through the X-ray mask, the areas in the target resist under the absorber and under the upright sidewalls of the phase shift feature receive a low X-ray exposure and are left on the substrate after the target resist is developed. 17. The method of claim 9 wherein the mask further includes at least one spacer formed on the surface of the carrier which has essentially no phase shift of X-rays passed therethrough or has a selected of a height which introduces a full wave phase shift or multiples thereof of X-rays passed therethrough, and wherein there are a plurality of phase shifting features at least one of which is formed on top of the spacer and one is formed directly on the carrier surface, such that after X-rays are passed through the mask, those portions of the target resist underlying the upright sidewalls of the feature on the spacer leave broader wall structures on the substrate than those portions of the target resist underlying the upright sidewalls of the feature formed directly on the carrier surface. 18. The method of claim 9 wherein the material of the phase shift feature partially absorbs the X-rays pass therethrough. 19. The method of claim 9 wherein the carrier of the mask is formed of silicon nitride having a thickness of about one micrometer or less. 20. The method of claim 9 wherein the material of the phase shift feature on the mask is formed on PMMA. 21. The method of claim 20 wherein the feature has a height above the carrier surface of 2.5 to 3 micrometers. 22. A method of making an X-ray lithography phase shift mask comprising the steps of: 23. The method of claim 22 wherein the photoresist is PMMA. 24. The method of claim 22 wherein the X-rays are passed through the mask at an angle to the surface of the carrier of the mask to cast a shadow of the absorber in the photoresist material which is at an angle to the carrier of the phase shift mask, so that when the resist material is developed, the phase shift feature formed by the unexposed resist has slanted sidewalls corresponding to the angle of incidence of the X-rays passing through the absorber mask into the photoresist. 25. An X-ray lithography mask and target set comprising: 26. The X-ray lithography mask and target set of claim 25 wherein the height of the phase shifting feature is selected to provide substantially a one-half wavelength phase shift of a region of X-rays passed therethrough which interact the most with the target photoresist. 27. The X-ray lithography mask and target set of claim 25 wherein the feature has a height above the carrier of about 2.5 to 3.0 micrometers. 28. The X-ray lithography mask and target set of claim 25 wherein the carrier is formed of silicon nitride having a thickness of about 1 micrometer or less. 29. The X-ray lithography mask and target set of claim 25 wherein the material forming the phase shift feature is partially absorbent of X-rays passed therethrough. 30. The X-ray lithography mask and target set of claim 25 further including an X-ray absorbing material formed in a pattern on the surface of the carrier, the material forming the phase shifting feature having a portion thereof overlying the X-ray absorbing material. 31. An X-ray lithography mask and target set comprising: 32. An X-ray lithography mask and target set comprising: 33. A method of producing microstructures by X-ray lithography comprising: 34. The method of claim 33 wherein the X-ray mask further includes an X-ray absorber formed in a pattern on the surface of the carrier and wherein the material of the phase shift feature has a portion thereof which overlies the absorber structure, such that when X-rays are passed through the X-ray mask, The areas in the target resist under the absorber and under the upright sidewalls of the phase shift feature receive a low X-ray exposure. 35. The method of claim 34 wherein the gap between the mask and the target photoresist is ten micrometers or less. 36. The method of claim 34 wherein the mask includes at least one phase shift feature having at least one upright sidewall and, in addition to the upright sidewall, at least one sidewall which is slanted with respect to the carrier so that no significant interference effects take place under the slanted sidewall as the X-rays are passed therethrough. 37. The method of claim 36 wherein the feature having a slanted sidewall has two slanted sidewalls which intersect and define the ends of an upright sidewall.