Abstract: A method of cyclic etching, comprising: (A) depositing, prior to cyclically etching a substrate through a mask opening, a pre-etch protection layer conformally over the mask, sidewalls of the mask defining the mask opening; and an exposed portion of the substrate exposed through the mask opening, the pre-etch protection layer deposited to a first thickness; and (B) cyclically etching the substrate by: (i) depositing a protection layer in the opening of the mask, the protection layer deposited to a second thickness that is less than half of the first thickness; (ii) etching through a portion of the protection layer disposed on the substrate and etching the substrate; and (iii) repeating (i) and (ii) until an end point is reached.

Abstract: An apparatus and method for etching a material layer with a cyclic etching and deposition process. The method for etching a material layer on a substrate includes: (a) etching at least a portion of a material layer (302) on a substrate (101) in an etch chamber (100) to form an open feature (360) having a bottom surface (312) and sidewalls in the material layer (302); (b) forming a protection layer (314) on the sidewalls and the bottom surface (312) of the open feature (360) from a protection layer (314) gas mixture comprising at least one carbon-fluorine containing gas; (c) selectively removing the protection layer (314) formed on the bottom surface (312) of the open feature (360) from a bottom surface (312) open gas mixture comprising the carbon-fluorine containing gas; and (d) continuingly etching the material layer (302) from the bottom surface (312) of the open feature (360) until a desired depth of the open feature (360) is reached.

Abstract: A method of cyclic etching, comprising: (A) depositing, prior to cyclically etching a substrate through a mask opening, a pre-etch protection layer conformally over the mask, sidewalls of the mask defining the mask opening; and an exposed portion of the substrate exposed through the mask opening, the pre-etch protection layer deposited to a first thickness; and (B) cyclically etching the substrate by: (i) depositing a protection layer in the opening of the mask, the protection layer deposited to a second thickness that is less than half of the first thickness; (ii) etching through a portion of the protection layer disposed on the substrate and etching the substrate; and (iii) repeating (i) and (ii) until an end point is reached.

Abstract: Embodiments of the present disclosure include a radial frequency plasma source having a split type inner coil assembly. In one embodiment, the split type inner coil assembly comprises two intertwining coils. In another embodiment, the split type inner coil assembly includes looped coils forming a dome.

Abstract: Embodiments of the present disclosure include a radial frequency plasma source having a split type inner coil assembly. In one embodiment, the split type inner coil assembly comprises two intertwining coils. In another embodiment, the split type inner coil assembly includes looped coils forming a dome.

Abstract: Embodiments of the present disclosure relate to method and apparatus for providing processing gases to a process chamber with improved plasma dissociation efficiency. One embodiment of the present disclosure provides a baffle nozzle assembly comprising an outer body defining an extension volume connected to a processing chamber. A processing gas is flown to the processing chamber through the extension volume which is exposed to power source for plasma generation.

Abstract: Embodiments of the present disclosure relate to method and apparatus for providing processing gases to a process chamber with improved plasma dissociation efficiency. One embodiment of the present disclosure provides a baffle nozzle assembly comprising an outer body defining an extension volume connected to a processing chamber. A processing gas is flown to the processing chamber through the extension volume which is exposed to power source for plasma generation.

Abstract: Embodiments of the present invention relate to method and apparatus for providing processing gases to a process chamber with improved plasma dissociation efficiency. One embodiment of the present invention provides a baffle nozzle assembly comprising an outer body defining an extension volume connected to a processing chamber. A processing gas is flown to the processing chamber through the extension volume which is exposed to power source for plasma generation.

Abstract: Methods of forming deep trenches in substrates are described. A method includes providing a substrate with a patterned film disposed thereon, the patterned film including a trench having a first width and a pair of sidewalls, the trench exposing the top surface of the substrate. The method also includes forming a material layer over the patterned film and conformal with the trench. The method also includes etching the material layer to form sidewall spacers along the pair of sidewalls of the trench, the sidewall spacers reducing the first width of the trench to a second width. The method also includes etching the substrate to form a deep trench in the substrate, the deep trench undercutting at least a portion of the sidewall spacers.

Abstract: Methods of filling deep trenches in substrates are described. A method includes providing a substrate with a deep trench formed therein. The method also includes forming a dielectric layer conformal with the substrate and the deep trench. The method also includes, with the entire portion of the dielectric layer conformal with the deep trench exposed, removing at least a portion, but not all, of the dielectric layer at the top of the deep trench with a relatively low bias plasma etch process.

Abstract: Methods of forming deep trenches in substrates are described. A method includes providing a substrate with a patterned film disposed thereon, the patterned film including a trench having a first width and a pair of sidewalls, the trench exposing the top surface of the substrate. The method also includes forming a material layer over the patterned film and conformal with the trench. The method also includes etching the material layer to form sidewall spacers along the pair of sidewalls of the trench, the sidewall spacers reducing the first width of the trench to a second width. The method also includes etching the substrate to form a deep trench in the substrate, the deep trench undercutting at least a portion of the sidewall spacers.

Abstract: Embodiments of the present invention relate to method and apparatus for providing processing gases to a process chamber with improved plasma dissociation efficiency. One embodiment of the present invention provides a baffle nozzle assembly comprising an outer body defining an extension volume connected to a processing chamber. A processing gas is flown to the processing chamber through the extension volume which is exposed to power source for plasma generation.

Abstract: Embodiments of the invention relate to a substrate etching system and process. In one embodiment, a method may include depositing material on the substrate during a deposition process, etching a first layer of the substrate during a first etch process, and etching a second layer of the substrate during a second etch process, wherein a first bias power is applied to the substrate during the first process, and wherein a second bias power is applied to the substrate during the second etch process. In another embodiment, a system may include a gas delivery system containing a first gas panel for supplying a first gas to a chamber, a second gas panel for supplying a second gas to the chamber, and a plurality of flow controllers for directing the gases to the chamber to facilitate rapid gas transitioning between the gases to and from the chamber and the panels.