Patent application number | Description | Published |
20110048928 | METHODS TO FABRICATE NON-METAL FILMS ON SEMICONDUCTOR SUBSTRATES USING PHYSICAL VAPOR DEPOSITION - Embodiments of the invention relate generally to semiconductor device fabrication and processes, and more particularly, to methods for implementing arrangements of magnetic field generators configured to facilitate physical vapor deposition (“PVD”) and/or for controlling impedance matching associated with a non-metal-based plasma used to modify a non-metal film, such as a chalcogenide-based film. | 03-03-2011 |
20110048934 | SYSTEM AND APPARATUS TO FACILITATE PHYSICAL VAPOR DEPOSITION TO MODIFY NON-METAL FILMS ON SEMICONDUCTOR SUBSTRATES - Embodiments of the invention relate generally to semiconductor device fabrication and processes, and more particularly, to an apparatus and a system for implementing arrangements of magnetic field generators configured to facilitate physical vapor deposition (“PVD”) and/or controlling impedance matching associated with a non-metal-based plasma used to modify a non-metal film, such as a chalcogenide-based film. | 03-03-2011 |
20140069130 | TEMPERATURE CONTROL OF SEMICONDUCTOR PROCESSING CHAMBERS - Embodiments relate generally to semiconductor device fabrication and processes, and more particularly, to an apparatus and a system that regulates the amount of thermal energy in a semiconductor processing chamber during semiconductor device fabrication and processes. In one embodiment, an apparatus includes a cavity environment controller and a pedestal temperature controller coupled to a semiconductor processing chamber. The cavity environment controller is configured to regulate the temperature of the semiconductor processing chamber through a fluid in a source cavity disposed at the top of the semiconductor processing chamber. | 03-13-2014 |
20140069334 | TEMPERATURE CONTROL OF SEMICONDUCTOR PROCESSING CHAMBERS BY MODULATING PLASMA GENERATION ENERGY - Embodiments relate generally to semiconductor device fabrication and processes, and more particularly, to an apparatus and a system that regulates the amount of thermal energy in a semiconductor processing chamber during semiconductor device fabrication and processes. In one embodiment, an apparatus includes a cavity environment controller and a pedestal temperature controller coupled to a semiconductor processing chamber. The pedestal temperature controller is configured to regulate the temperature of the semiconductor processing chamber through a pedestal disposed at the bottom of the semiconductor processing chamber. | 03-13-2014 |
20140262754 | PHYSICAL VAPOR DEPOSITION METHODS AND SYSTEMS TO FORM SEMICONDUCTOR FILMS USING COUNTERBALANCE MAGNETIC FIELD GENERATORS - Embodiments relate generally to semiconductor device fabrication and processes, and more particularly, to systems and methods that implement magnetic field generators configured to generate rotating magnetic fields to facilitate physical vapor deposition (“PVD”). In one embodiment, a system generates a first portion of a magnetic field adjacent a first circumferential portion of a substrate, and can generate a second portion of the magnetic field adjacent to a second circumferential portion of the substrate. The second circumferential portion is disposed at an endpoint of a diameter that passes through an axis of rotation to another endpoint of the diameter at which the first circumferential portion resides. The second peak magnitude can be less than the first peak magnitude. The system rotates the first and second portions of the magnetic fields to decompose a target material to form a plasma adjacent the substrate. The system forms a film upon the substrate | 09-18-2014 |
20140265857 | APPARATUS AND ARRANGEMENTS OF MAGNETIC FIELD GENERATORS TO FACILITATE PHYSICAL VAPOR DEPOSITION TO FORM SEMICONDUCTOR FILMS - Embodiments relate generally to semiconductor device fabrication and processes, and more particularly, to an apparatus and arrangements of magnetic field generators configured to generate rotating magnetic fields to facilitate physical vapor deposition (“PVD”). In one embodiment, a magnetic field generator apparatus can include a rotatable magnetic field and a counterbalance magnetic field generator that rotates about the axis of rotation in opposition to the rotatable magnetic field generator. The rotatable magnetic field generator generates a first magnitude of a magnetic field adjacent to a first circumferential portion of a circular region. The counterbalance magnetic field generator generates a second magnitude of the magnetic field adjacent to a second circumferential portion. The rotatable and counterbalance magnetic field generators can be configured to generate the magnetic field between the first and a second plane along a diameter extending from the first circumferential portion to the second circumferential portion. | 09-18-2014 |
20150311065 | PHYSICAL VAPOR DEPOSITION METHODS AND SYSTEMS TO FORM SEMICONDUCTOR FILMS USING COUNTERBALANCE MAGNETIC FIELD GENERATORS - Embodiments relate generally to semiconductor device fabrication and processes, and more particularly, to systems and methods that implement magnetic field generators configured to generate rotating magnetic fields to facilitate physical vapor deposition (“PVD”). In one embodiment, a system generates a first portion of a magnetic field adjacent a first circumferential portion of a substrate, and can generate a second portion of the magnetic field adjacent to a second circumferential portion of the substrate. The second circumferential portion is disposed at an endpoint of a diameter that passes through an axis of rotation to another endpoint of the diameter at which the first circumferential portion resides. The second peak magnitude can be less than the first peak magnitude. The system rotates the first and second portions of the magnetic fields to decompose a target material to form a plasma adjacent the substrate. The system forms a film upon the substrate. | 10-29-2015 |
20150372231 | METHODS TO FABRICATE NON-METAL FILMS ON SEMICONDUCTOR SUBSTRATES USING PHYSICAL VAPOR DEPOSITION - Embodiments of the invention relate generally to semiconductor device fabrication and processes, and more particularly, to methods for implementing arrangements of magnetic field generators configured to facilitate physical vapor deposition (“PVD”) and/or for controlling impedance matching associated with a non-metal-based plasma used to modify a non-metal film, such as a chalcogenide-based film. | 12-24-2015 |