Patent application number | Description | Published |
20090233004 | METHOD AND SYSTEM FOR DEPOSITING SILICON CARBIDE FILM USING A GAS CLUSTER ION BEAM - A method for depositing material on a substrate is described. The method comprises maintaining a reduced-pressure environment around a substrate holder for holding a substrate having a surface, and holding the substrate securely within the reduced-pressure environment. Additionally, the method comprises forming a gas cluster ion beam (GCIB) from a pressurized gas comprising a compound having silicon (Si) and carbon (C), accelerating the GCIB to the reduced-pressure environment, and irradiating the accelerated GCIB onto at least a portion of the surface of the substrate to form a thin film containing silicon and carbon, wherein the carbon content is greater than or equal to about 10%. Further the compound may possess a Si—C bond. | 09-17-2009 |
20100029071 | METHOD OF FORMING SEMICONDUCTOR DEVICES CONTAINING METAL CAP LAYERS - Embodiments of methods for improving electrical leakage performance and minimizing electromigration in semiconductor devices containing metal cap layers are generally described herein. According to one embodiment, a method of forming a semiconductor device includes planarizing a top surface of a workpiece to form a substantially planar surface with conductive paths and dielectric regions, forming metal cap layers on the conductive paths, and exposing the top surface of the workpiece to a dopant source from a gas cluster ion beam (GCIB) to form doped metal cap layers on the conductive paths and doped dielectric layers on the dielectric regions. According to some embodiments the metal cap layers and the doped metal cap layers contain a noble metal selected from Pt, Au, Ru, Rh, Ir, and Pd. | 02-04-2010 |
20100029078 | METHOD OF FORMING SEMICONDUCTOR DEVICES CONTAINING METAL CAP LAYERS - Embodiments of methods for improving electrical leakage performance and minimizing electromigration in semiconductor devices containing metal cap layers are generally described herein. According to one embodiment, a method of forming a semiconductor device includes planarizing a top surface of a workpiece to form a substantially planar surface with conductive paths and dielectric regions, forming metal cap layers on the conductive paths, and exposing the top surface of the workpiece to a dopant source from a gas cluster ion beam (GCIB) to form doped metal cap layers on the conductive paths and doped dielectric layers on the dielectric regions. According to some embodiments the metal cap layers and the doped metal cap layers contain a noble metal selected from Pt, Au, Ru, Rh, Ir, and Pd. | 02-04-2010 |
20100227142 | ULTRA-THIN FILM FORMATION USING GAS CLUSTER ION BEAM PROCESSING - A method of preparing a thin film on a substrate is described. The method comprises forming an ultra-thin hermetic film over a portion of a substrate using a gas cluster ion beam (GCIB), wherein the ultra-thin hermetic film has a thickness less than approximately 5 nm. The method further comprises providing a substrate in a reduced-pressure environment, and generating a GCIB in the reduced-pressure environment from a pressurized gas mixture. A beam acceleration potential and a beam dose are selected to achieve a thickness of the thin film less than about 5 nanometers (nm). The GCIB is accelerated according to the beam acceleration potential, and the accelerated GCIB is irradiated onto at least a portion of the substrate according to the beam dose. By doing so, the thin film is formed on the at least a portion of the substrate to achieve the thickness desired. | 09-09-2010 |
20110084214 | GAS CLUSTER ION BEAM PROCESSING METHOD FOR PREPARING AN ISOLATION LAYER IN NON-PLANAR GATE STRUCTURES - A gas cluster ion beam (GCIB) processing method for preparing an isolation layer in a non-planar gate structure is described. The method forms a non-planar gate structure on a substrate. Additionally, the GCIB processing method includes generating a GCIB formed from a material source for forming an isolation layer for the non-planar gate structure. Additionally yet, the GCIB processing method includes selecting a beam energy, a beam energy distribution, a beam focus, and a beam dose to achieve a desired thickness of the isolation layer, accelerating the GCIB to achieve the beam energy, focusing the GCIB to achieve the beam focus, and irradiating at least a portion of the substrate with the accelerated GCIB according to the beam dose. The GCIB processing method forms the isolation layer at a base surface adjacent a base of the non-planar gate structure using the GCIB to achieve the desired thickness. | 04-14-2011 |
20110084215 | METHOD AND SYSTEM FOR TILTING A SUBSTRATE DURING GAS CLUSTER ION BEAM PROCESSING - A method and system for treating a non-planar structure is described. The method includes forming a non-planar structure on a substrate. Additionally, the method includes generating a gas cluster ion beam (GCIB) formed from a material source for treatment of the non-planar structure, tilting the substrate relative to the GCIB, and irradiating the non-planar structure with the GCIB. The system includes a substrate tilt actuator coupled to a substrate holder and configured to tilt the substrate holder relative to a GCIB. | 04-14-2011 |
20110084216 | METHOD FOR TREATING NON-PLANAR STRUCTURES USING GAS CLUSTER ION BEAM PROCESSING - A method for treating a structure is described. One embodiment includes forming a structure on a substrate, wherein the structure has a plurality of surfaces including one or more first surfaces lying substantially parallel to a first plane parallel with said substrate and one or more second surfaces lying substantially perpendicular to the first plane. Additionally, the method comprises directing a gas cluster ion beam (GCIB) formed from a material source toward the substrate with a direction of incidence, and orienting the substrate relative to the direction of incidence. The method further comprises treating the one or more second surfaces. | 04-14-2011 |
20110117738 | METHOD TO ALTER SILICIDE PROPERTIES USING GCIB TREATMENT - A method of manufacturing a semiconductor device is described. The method comprises performing a gas cluster ion beam (GCIB) pre-treatment and/or post-treatment of at least a portion of a silicon-containing substrate during formation of a silicide region. | 05-19-2011 |
20110272594 | GAS CLUSTER ION BEAM SYSTEM WITH RAPID GAS SWITCHING APPARATUS - A processing system is provided for irradiating a substrate with a gas cluster ion beam (GCIB). The system includes a nozzle for forming and emitting gas cluster beams through a nozzle outlet, and a stagnation chamber that is located upstream of and adjacent the nozzle. The stagnation chamber has an inlet, and the nozzle is configured to direct a single gas cluster beam toward the substrate. An ionizer is positioned downstream of the outlet and is configured to ionize the gas cluster beam to form the GCIB. The system also includes a gas supply that is in fluid communication with the inlet of the stagnation chamber, and which includes a gas source and a valve located between the gas source and the nozzle for controlling flow of a gas between the gas source and the nozzle. | 11-10-2011 |
20120064713 | Ultra-low-k dual damascene structure and method of fabricating - A method of patterning an insulation layer is described. The method includes preparing a feature pattern in an insulation layer using at least one hard mask layer formed on the insulation layer, where the insulation layer contains a low-k material having a dielectric constant less than the dielectric constant of SiO | 03-15-2012 |
20120238092 | METHOD TO ALTER SILICIDE PROPERTIES USING GCIB TREATMENT - A method of manufacturing a semiconductor device is described. The method comprises performing a gas cluster ion beam (GCIB) pre-treatment and/or post-treatment of at least a portion of a silicon-containing substrate during formation of a silicide region. | 09-20-2012 |
20130224950 | METHOD TO ALTER SILICIDE PROPERTIES USING GCIB TREATMENT - A method of manufacturing a semiconductor device is described. The method comprises performing a gas cluster ion beam (GCIB) pre-treatment and/or post-treatment of at least a portion of a silicon-containing substrate during formation of a silicide region. | 08-29-2013 |
20130230984 | METHOD TO ALTER SILICIDE PROPERTIES USING GCIB TREATMENT - A method of manufacturing a semiconductor device is described. The method comprises performing a gas cluster ion beam (GCIB) pre-treatment and/or post-treatment of at least a portion of a silicon-containing substrate during formation of a silicide region. | 09-05-2013 |