Patent application number | Description | Published |
20090215281 | HDP-CVD SION FILMS FOR GAP-FILL - The present invention pertains to methods of depositing low stress/high index multi-layer films on a substrate using an HDP-CVD process. The multi-layer films include two lining layers and a bulk gap-fill layer and the HDP-CVD process employs a reduced substrate bias power during deposition of at least the second lining layer. Deposition of the three layers occurs at reduced deposition temperatures which further reduces the stress of the multi-layer film. The lower stress results in less defectivity which improves the films ability to maintain optical confinement of radiation. | 08-27-2009 |
20100095979 | REMOTE PLASMA CLEAN PROCESS WITH CYCLED HIGH AND LOW PRESSURE CLEAN STEPS - A remote plasma process for removing unwanted deposition build-up from one or more interior surfaces of a substrate processing chamber after processing a substrate disposed in the substrate processing chamber. In one embodiment, the substrate is transferred out of the substrate processing chamber and a flow of a fluorine-containing etchant gas is introduced into a remote plasma source where reactive species are formed. A continuous flow of the reactive species from the remote plasmas source to the substrate processing chamber is generated while a cycle of high and low pressure clean steps is repeated. During the high pressure clean step, reactive species are flown into the substrate processing chamber while pressure within the substrate processing chamber is maintained between 4-15 Torr. During the low pressure clean step, reactive species are flown into the substrate processing chamber while reducing the pressure of the substrate processing chamber by at least | 04-22-2010 |
20110129990 | METHOD FOR DOPING NON-PLANAR TRANSISTORS - Methods for doping a non-planar structure by forming a conformal doped silicon glass layer on the non-planar structure are disclosed. A substrate having the non-planar structure formed thereon is positioned in chemical vapor deposition process chamber to deposit a conformal SACVD layer of doped glass (e.g. BSG or PSG). The substrate is then exposed to RTP or laser anneal step to diffuse the dopant into the non-planar structure and the doped glass layer is then removed by etching. | 06-02-2011 |
20110223760 | CONFORMALITY OF OXIDE LAYERS ALONG SIDEWALLS OF DEEP VIAS - A method for improving conformality of oxide layers along sidewalls of vias in semiconductor substrates includes forming a nitride layer over an upper surface of a semiconductor substrate and forming a via extending through the nitride layer and into the semiconductor substrate. The via may have a depth of at least about 50 μm from a top surface of the nitride layer and an opening of less than about 10 μm at the top surface of the nitride layer. The method also includes forming an oxide layer over the nitride layer and along sidewalls and bottom of the via. The oxide layer may be formed using a thermal chemical vapor deposition (CVD) process at a temperature of less than about 450° C., where a thickness of the oxide layer at the bottom of the via is at least about 50% of a thickness of the oxide layer at the top surface of the nitride layer. | 09-15-2011 |
20120015113 | METHODS FOR FORMING LOW STRESS DIELECTRIC FILMS - A method for forming a multi-layer silicon oxide film on a substrate includes performing a deposition cycle that comprises depositing a silicon oxide layer using a thermal chemical vapor deposition (CVD) process and depositing a silicon oxide layer using a plasma enhanced chemical vapor deposition (PECVD) process. The deposition cycle is repeated a specified number of times to form the multi-layer silicon oxide film comprising a plurality of silicon oxide layers formed using the thermal CVD process and a plurality of silicon oxide layers formed using the PECVD process. Each silicon oxide layer formed using the thermal CVD process is adjacent to at least one silicon oxide layer formed using the PECVD process. | 01-19-2012 |
20120058281 | METHODS FOR FORMING LOW MOISTURE DIELECTRIC FILMS - A method for forming a pre-metal dielectric (PMD) layer or an inter-metal dielectric (IMD) layer over a substrate includes placing the substrate in a chemical vapor deposition (CVD) process chamber and forming a first oxide layer over the substrate in the CVD process chamber. The first oxide layer is formed using a thermal CVD process at a temperature of about 450° C. or less and a sub-atmospheric pressure. The method also includes forming a second oxide layer over the first oxide layer in the CVD process chamber. The second oxide layer is formed using a plasma enhanced chemical vapor deposition (PECVD) process at a temperature of about 450° C. or less and a sub-atmospheric pressure. The substrate remains in the CVD process chamber during formation of the first oxide layer and the second oxide layer. | 03-08-2012 |
20120208371 | METHOD AND APPARATUS FOR MULTIZONE PLASMA GENERATION - Embodiments of the present invention provide a method and apparatus for plasma processing a substrate to form a film on the substrate and devices disposed thereon by controlling the ratio of ions to radicals in the plasma at a given pressure. A given pressure may be maintained to promote ion production using one plasma source, and a second plasma source may be used to provide additional radicals. In one embodiment, a low pressure plasma is generated in a processing region having the substrate positioned therein, and a high pressure plasma is generated in separate region. Radicals from the high pressure plasma are injected into the processing region having the low pressure plasma, thus, altering the natural distribution of radicals to ions at a given operating pressure. The resulting process and apparatus enables tailoring of the ion to radical ratio to allow better control of forming films on high aspect ratio features, and thus improve corner rounding, conformality of sidewall to bottom trench growth, and selective growth. | 08-16-2012 |
20140186544 | METAL PROCESSING USING HIGH DENSITY PLASMA - Methods of forming dielectric layers using high-density plasma chemical vapor deposition are described. Dielectric layers are formed over metal films. The metal film is present on a substrate prior to entering the high-density plasma processing chamber. The metal film is processed to remove oxidation and optionally to improve adhesion of the dielectric layer on the metal film. | 07-03-2014 |
20140187045 | SILICON NITRIDE GAPFILL IMPLEMENTING HIGH DENSITY PLASMA - Methods of filling features with silicon nitride using high-density plasma chemical vapor deposition are described. Narrow trenches may be filled with gapfill silicon nitride without damaging compressive stress. A low but non-zero bias power is used during deposition of the gapfill silicon nitride. An etch step is included between each pair of silicon nitride high-density plasma deposition steps in order to supply sputtering which would normally be supplied by high bias power. | 07-03-2014 |