DUAL DAMASCENE TRENCH DEPTH MONITORING

CLAIMS What is claimed is: 1. A method of dual damascene processing, comprising: providing a semiconductor substrate with an insulation structure on an upper surface thereof, the insulation structure consisting essentially of a single layer of a dielectric material; forming a plurality of via openings in the insulation structure, wherein groups of via openings are positioned in a substantially straight line; simultaneously (i) forming a plurality of trenches in the insulation structure, each trench positioned along the substantially straight line of a group of via openings, and (ii) monitoring the formation of trenches using a scatterometry system by generating a signature associated with forming the trenches, comparing the signature to a signature library to determine trench depth, and terminating forming the trenches when a desired trench depth is attained;STDC0070 and filling the trenches and via openings with a conductive metal.

2. The method of claim 1, wherein generating the signature associated with forming the trenches comprises directing a beam of incident light at the insulation structure, collecting light reflected from the insulation structure, and transforming the reflected light into the signature.

3. The method of claim 1, wherein the signature associated with forming the trenches corresponds to a particular depth and profile associated with an upper surface of the insulation structure as it appears before, during and after forming the trenches.

4. The method of claim 1, wherein an analysis system compares the signature to a signature library to determine trench depth.

5. The method of claim 1, wherein a closed loop feedback control system for terminating the formation of the trenches according to the determined trench depth comprises feeding information related to trench depth via the closed loop feedback control system to a trench etch controller, wherein the trench etch controller is connected to a trained neural network to facilitate termination of the formation of trenches.

6. The method of claim 1, wherein the scatterometry system further compares the signature to a signature library to determine trench profile, and terminates forming the trenches when a desired trench profile is attained.

7. The method of claim 1, wherein an analysis system compares the signature to a signature library to determine trench depth and via depth.

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8. The method of claim 1, wherein the dielectric material comprises one selected from the group consisting of silicon dioxide, silicon nitride, silicon oxynitride, fluorine doped silicon glass, tetraethylorthosilicate, boropliosphotetraethylorthosilicate, phosphosilicate glass, borophosphosilicate glass, polyimides, fluorinated polyimides, polysilsequioxane, benzocyclobutene, poly (arylene ester), parylene F, parylene N and amorphous polytetrafluoroethylene.

9. A method of forming a dual damascene opening in a semiconductor substrate, comprising: providing a semiconductor substrate with an insulation structure on an upper surface thereof, the insulation structure consisting essentially of a single layer of a dielectric material; forming at least one via opening in the insulation structure ; and simultaneously (i) forming a trench in the insulation structure, the trench positioned above the via opening, both the via opening and the trench constituting the dual damascene opening, and (ii) monitoring forming the trench using a scatterometry system by:STDC0361 directing a beam of incident light at the insulation structure, collecting light reflected from the insulation structure, transforming the reflected light into a signature associated with forming the trench, comparing the signature to a signature library to determine trench depth, and terminating forming the trench when a desired trench depth is attained.

10. A method of forming a dual damascene structure, comprising: providing a semiconductor substrate with an insulation structure on an upper surface thereof, the insulation structure consisting essentially of a single layer of a dielectric material; forming a plurality of via openings in the insulation structure, wherein groups of via openings are positioned in a substantially straight line;STDC0862 simultaneously (i) forming a plurality of trenches in the insulation structure using a trench etch controller, each trench positioned along the substantially straight line of a group of via openings, and (ii) monitoring the formation of trenches using a scatterometry system by generating a signature associated with forming the trenches, comparing the signature to a signature library to determine trench depth, and if the determine trench depth is not within an acceptable range of desired trench depths, instructing the trench etch controller to continue forming the trenches and optionally adjust a trench etch process component; if the determine trench depth is within an acceptable range of desired trench depths, instructing the trench etch controller to terminate forming the trenches ; and filling the trenches and via openings with a conductive metal.