Patent ID: 8936703
Filing Date: 2015-01-20
Classification: C23C,H01L

Abstract:
1. A method to operate a plasma implementation system to process a semiconductor substrate comprising: implementing a top magnet at a top chamber portion internal to a chamber, the top magnet configured to sputter a chalcogenide-based target material to form a plasma at a plasma processing region at a bottom chamber portion including a semiconductor substrate within the chamber; enclosing the plasma processing region with a shield having an outer shield wall, an outer region and an inner region being disposed concentrically about the outer shield wall; implementing a first set of a plurality of separate magnetic field generators disposed radially about a centerline that passes through the center of the bottom chamber portion configured to include the semiconductor substrate, the first set of the plurality of the separate magnetic field generators in a first plane at a first radial distance; orienting the first set of the plurality of separate magnetic field generators to generate at least a portion of a first magnetic field that originates from the first plane at the first radial distance that is substantially orthogonal to the centerline, the portion of the first magnetic field having a first magnetic field magnitude at a region about the centerline, the first plane being disposed either between the top magnet at the top chamber portion and the bottom chamber portion that is configured to include the semiconductor substrate, or at a distance from the top magnet in which the first plane includes the bottom chamber portion that is configured to include the semiconductor substrate; implementing a second set of a plurality of separate magnetic field generators disposed radially about the centerline in a second plane at a second radial distance; orienting the second set of the plurality of separate magnetic field generators to generate at least a portion of a second magnetic field that originates from the second plane at the second radial distance that is substantially orthogonal to the centerline, the portion of the second magnetic field having a second magnetic field magnitude substantially the same as the first magnetic field magnitude at the region about the centerline, the second plane being disposed either between the top magnet at the top chamber portion and the bottom chamber portion that is configured to include the semiconductor substrate, or at a distance from the top magnet in which the second plane includes the bottom chamber portion that is configured to include the semiconductor substrate, wherein the first radial distance is different from the second radial distance; and implementing an impedance matcher to generate a radio-frequency (“RF”) voltage signal to supply RF power and to match impedance between the plasma and a source generating the RF voltage to control the deposition of a layer of nonmetal film as a chalcogenide-based film upon the semiconductor substrate, wherein the first radial distance and the second radial distance are greater than a radial distance at which a wall of a shield is disposed, wherein generating the first magnetic field and generating the second magnetic field respectively comprise: