Abstract: A method of processing a substrate that includes: performing a cyclic plasma etch process including a plurality of cycles, each of the plurality of cycles including: etching a patterning layer including a polycrystalline semiconductor material to form or extend a recess by exposing the substrate to a first plasma, the substrate including an oxide layer, the patterning layer formed over the oxide layer, exposing the substrate to a second plasma, the second plasma including dihydrogen, and extending the recess by exposing the substrate to a third plasma, the second plasma being different from the first plasma and the third plasma.

Abstract: A method of etching a metal includes performing at least two cycles of an etch process. A cycle of the etch process includes: performing a surface modification on an exposed surface of a metal layer over a substrate, performing a hydrogen treatment on the metal layer, and performing a cleaning treatment on the metal layer. The hydrogen treatment forms a layer of reaction products on the metal layer. The cleaning treatment removes the layer of reaction products.

Abstract: A method which includes providing a substrate having a source/drain region and an etch stop layer on the source/drain region. A plasma etching process is performed using an etching gas that removes the etch stop layer and forms a sacrificial oxide capping layer on the source/drain region. The sacrificial oxide capping layer is then from the source/drain region.

Abstract: A method for etching on a semiconductors at the back end of line using reactive ion etching. The method comprises reduced pressure atmosphere and a mixture of gases at a specific flow rate ratio during plasma generation and etching. Plasma generation is induced by a source radio frequency and anisotropic etch performance is induced by a second bias radio frequency.

Abstract: The invention provides a systems and methods for creating Double Pattern (DP) structures on a patterned wafer in real-time using Dual Pattern Contact-Etch (DPCE) processing sequences and associated Contact-Etch-Multi-Input/Multi-Output (CE-MIMO) models. The DPCE processing sequences can include one or more contact-etch procedures, one or more measurement procedures, one or more contact-etch modeling procedures, and one or more contact-etch verification procedures. The CE-MIMO model uses dynamically interacting behavioral modeling between multiple layers and/or multiple contact-etch procedures. The multiple layers and/or the multiple contact-etch procedures can be associated with the creation of lines, trenches, vias, spacers, contacts, and gate structures that can be created during Double Patterning (DP) procedures.

Abstract: The invention provides a systems and methods for creating Double Pattern (DP) structures on a patterned wafer in real-time using Dual Pattern Contact-Etch (DPCE) processing sequences and associated Contact-Etch-Multi-Input/Multi-Output (CE-MIMO) models. The DPCE processing sequences can include one or more contact-etch procedures, one or more measurement procedures, one or more contact-etch modeling procedures, and one or more contact-etch verification procedures. The CE-MIMO model uses dynamically interacting behavioral modeling between multiple layers and/or multiple contact-etch procedures. The multiple layers and/or the multiple contact-etch procedures can be associated with the creation of lines, trenches, vias, spacers, contacts, and gate structures that can be created during Double Patterning (DP) procedures.

Abstract: A method for etching on a semiconductors at the back end of line using reactive ion etching. The method comprises reduced pressure atmosphere and a mixture of gases at a specific flow rate ratio during plasma generation and etching. Plasma generation is induced by a source radio frequency and anisotropic etch performance is induced by a second bias radio frequency.

Abstract: A method for etching on a semiconductors at the back end of line using reactive ion etching. The method comprises reduced pressure atmosphere and a mixture of gases at a specific flow rate ratio during plasma generation and etching. Plasma generation is induced by a source radio frequency and anisotropic etch performance is induced by a second bias radio frequency.

Abstract: A method for etching on a semiconductors at the back end of line using reactive ion etching. The method comprises reduced pressure atmosphere and a mixture of gases at a specific flow rate ratio during plasma generation and etching. Plasma generation is induced by a source radio frequency and anisotropic etch performance is induced by a second bias radio frequency.

Abstract: Methods of etching a dielectric layer and a cap layer over a conductor level to open a via to the conductor. The methods include the provision of tetrafluoro methane (CF4) in a photoresist strip. In addition, the methods may provide an increased amount of tetrafluoro methane (CF4) in a dielectric layer etch, and trifluoro methane (CHF3) in a cap layer etch. The invention provides higher yield, more predictable etch rates, faster processing, and removes the need for an ash step.

Abstract: Methods of etching a dielectric layer and a cap layer over a conductor level to open a via to the conductor. The methods include the provision of tetrafluoro methane (CF4) in a photoresist strip. In addition, the methods may provide an increased amount of tetrafluoro methane (CF4) in a dielectric layer etch, and trifluoro methane (CHF3) in a cap layer etch. The invention provides higher yield, more predictable etch rates, faster processing, and removes the need for an ash step.

Abstract: Methods for sealing an organic ILD layer and a metal layer after an etching step. The method includes etching through an ILD layer and leaving a remaining portion of an underlying metal layer cap, maintaining the device in an inert gas, and depositing at least a portion of a liner into the opening to seal the ILD layer and the metal layer. Subsequent processing may include formation of a via by etching through the portion of the liner and the remaining portion of the cap layer, and depositing a metal.