Patent application number | Description | Published |
20100173496 | PROFILE AND CD UNIFORMITY CONTROL BY PLASMA OXIDATION TREATMENT - A method of forming spacers from a non-silicon oxide, silicon containing spacer layer with horizontal surfaces and sidewall surfaces over a substrate is provided. A plasma oxidation treatment is provided to form a silicon oxide coating over the spacer layer, wherein the silicon oxide coating provides a horizontal coating on the horizontal surfaces and sidewall coatings on the sidewall surfaces of the spacer layer. An anisotropic main etch that selectively etches horizontal surfaces of the spacer layer and silicon oxide coating with respect to sidewall surfaces of the spacer layer and the sidewall coatings of the silicon oxide coating is provided. The spacer layer is etched, wherein the sidewall coatings of the silicon oxide coating protect sidewall surfaces of the spacer layer. | 07-08-2010 |
20130025785 | PROFILE AND CD UNIFORMITY CONTROL BY PLASMA OXIDATION TREATMENT - An apparatus for forming spacers is provided. A plasma processing chamber is provided, comprising a chamber wall, a substrate support, a pressure regulator, an antenna, a bias electrode, a gas inlet, and a gas outlet. A gas source comprises an oxygen gas source and an anisotropic etch gas source. A controller comprises a processor and computer readable media. The computer readable media comprises computer readable code for placing a substrate of the plurality of substrates in a plasma etch chamber, computer readable code for providing a plasma oxidation treatment to form a silicon oxide coating over the spacer layer, computer readable code for sputtering silicon to form silicon oxide with the oxygen plasma, computer readable code for providing an anisotropic main etch, computer readable code for etching the spacer layer, computer readable code for removing the substrate from the plasma etch chamber after etching the spacer layer. | 01-31-2013 |
20130267097 | METHOD AND APPARATUS FOR FORMING FEATURES WITH PLASMA PRE-ETCH TREATMENT ON PHOTORESIST - A method for forming features through a photoresist mask into an underlying layer is provided. The photoresist mask has patterned mask features. The photoresist mask has patterned mask features. A treatment gas containing H | 10-10-2013 |
20140030893 | METHOD FOR SHRINK AND TUNE TRENCH/VIA CD - A method for etching with CD reduction, an etch layer disposed below a silicon containing mask layer under a patterned organic mask with features with a first CD. Features are opened in the silicon containing mask layer using the patterned organic mask, comprising providing an opening gas with an etchant component and polymerizing component, forming the opening gas into a plasma, and providing a pulsed bias with a pulse frequency between 10 Hz and 1 kHz, which etches features through the silicon containing mask layer with a second CD, which is less than half the first CD, forming a pattern in the silicon containing mask layer. The pattern of the silicon containing mask layer is transferred to the etch layer. | 01-30-2014 |
20140038419 | METHOD FOR PROVIDING VIAS - A method for forming via holes in an etch layer disposed below a patterned organic mask with a plurality of patterned via holes is provided. The patterned organic mask is treated by flowing a treatment gas comprising H | 02-06-2014 |
20140051256 | ETCH WITH MIXED MODE PULSING - A method for etching a dielectric layer disposed below a patterned organic mask with features, with hardmasks at bottoms of some of the organic mask features is provided. An etch gas is provided. The etch gas is formed into a plasma. A bias RF with a frequency between 2 and 60 MHz is provided that provides pulsed bias with a pulse frequency between 10 Hz and 1 kHz wherein the pulsed bias selectively deposits on top of the organic mask with respect to the dielectric layer. | 02-20-2014 |
20140179106 | IN-SITU METAL RESIDUE CLEAN - A method for forming devices in an oxide layer over a substrate, wherein a metal containing layer forms at least either an etch stop layer below the oxide layer or a patterned mask above the oxide layer, wherein a patterned organic mask is above the oxide layer is provided. The substrate is placed in a plasma processing chamber. The oxide layer is etched through the patterned organic mask, wherein metal residue from the metal containing layer forms metal residue on sidewalls of the oxide layer. The patterned organic mask is stripped. The metal residue is cleaned by the steps comprising providing a cleaning gas comprising BCl | 06-26-2014 |
20140220709 | CONTROLLING CD AND CD UNIFORMITY WITH TRIM TIME AND TEMPERATURE ON A WAFER BY WAFER BASIS - Exemplary embodiments are directed to controlling CD uniformity of a wafer by controlling trim time on temperature in a plasma processing system. The plasma processing system has a wafer support assembly including a plurality of independently controllable temperature control zones across a chuck and a controller that controls each temperature control zone. The controller receives process control and temperature data associated with at least one wafer previously processed in a plasma chamber of the plasma processing system, and critical device parameters of a current wafer to be processed in the plasma chamber. The controller calculates a target trim time and a target temperature profile of the current wafer based on the process control and temperature data, and the critical device parameters. The current wafer is trimmed during the target trim time while the temperature of each device die location is controlled based on the target temperature profile. | 08-07-2014 |
20140302678 | INTERNAL PLASMA GRID APPLICATIONS FOR SEMICONDUCTOR FABRICATION - The embodiments disclosed herein pertain to improved methods and apparatus for etching a semiconductor substrate. A plasma grid assembly is positioned in a reaction chamber to divide the chamber into upper and lower sub-chambers. The plasma grid assembly may include one or more plasma grids having slots of a particular aspect ratio, which allow certain species to pass through from the upper sub-chamber to the lower sub-chamber. In some cases, an electron-ion plasma is generated in the upper sub-chamber. Electrons that make it through the grid to the lower sub-chamber are cooled as they pass through. In some cases, this results in an ion-ion plasma in the lower sub-chamber. The ion-ion plasma may be used to advantage in a variety of etching processes. | 10-09-2014 |
20140302680 | INTERNAL PLASMA GRID FOR SEMICONDUCTOR FABRICATION - The embodiments disclosed herein pertain to improved methods and apparatus for etching a semiconductor substrate. A plasma grid assembly is positioned in a reaction chamber to divide the chamber into upper and lower sub-chambers. The plasma grid assembly may include one or more plasma grids having slots of a particular aspect ratio, which allow certain species to pass through from the upper sub-chamber to the lower sub-chamber. Where multiple plasma grids are used, one or more of the grids may be movable, allowing for tenability of the plasma conditions in at least the lower sub-chamber. In some cases, an electron-ion plasma is generated in the upper sub-chamber. Electrons that make it through the grid to the lower sub-chamber are cooled as they pass through. In some cases, this results in an ion-ion plasma in the lower sub-chamber. | 10-09-2014 |
20150053347 | CONTROLLING CD AND CD UNIFORMITY WITH TRIM TIME AND TEMPERATURE ON A WAFER BY WAFER BASIS - Exemplary embodiments are directed to controlling CD uniformity of a wafer by controlling trim time on temperature in a plasma processing system. The plasma processing system has a wafer support assembly including a plurality of independently controllable temperature control zones across a chuck and a controller that controls each temperature control zone. The controller receives process control and temperature data associated with at least one wafer previously processed in a plasma chamber of the plasma processing system. The controller also receives critical device parameters of a current wafer to be processed in the plasma chamber. The controller calculates a target trim time and a target temperature profile of the current wafer based on the process control and temperature data of the at least one previously processed wafers and the critical device parameters of the current wafer. The current wafer as subjected to a trimming operation for a duration of the target trim time while controlling temperatures in the temperature control zones to thereby control temperature of each device die location based on the target temperature profile. | 02-26-2015 |