Patent ID: 8597479
Filing Date: 2013-12-03
Classification: C23C,H01J

Abstract:
1. A sputtering system which includes a substrate holder adapted to hold a substrate on which a thin film is formed, in a vacuum container whose inside is evacuated to a vacuum state, a target provided at a position facing a thin film forming surface of the substrate held by the substrate holder, applying an electric field between the substrate held by the substrate holder and the target, and magnetic field applying means adapted to apply a magnetic field intersecting the electric field on the target, which generates a plasma on the target by introducing a discharge gas in the vacuum container evacuated to the vacuum state, to generate atoms or molecules from the target, and which makes the generated atoms or molecules deposited on the substrate held by the substrate holder to form the thin film, the sputtering system including: the magnetic field applying means comprising: three or more magnets adapted to independently generate a magnetic field, respectively; magnet revolving means adapted to revolve each magnet of the three or more magnets, respectively about a central axis of revolution; and magnet rotating means adapted to rotate each magnet of the three or more magnets, respectively about a central axis of rotation, in linkage with the magnet revolving means, and an N pole and an S pole of each magnet of the three or more magnets are arranged in a manner that a magnetic field is generated by an interaction of one of the N pole and the S pole of each of the magnets with the other pole of an adjacent one of the magnets, and the generated magnetic field is changed while each of the magnets is revolved and rotated, wherein the three or more magnets are maintained equidistant from the central axis of revolution and are disposed so that distances from the central axis of revolution to the central axis of rotation of each one of the three or more magnets are maintained equal throughout the rotation about the central axis of revolution and the central axis of revolution is maintained parallel to the central axis of rotation of each one of the three or more magnets, and wherein the three or more magnets are disposed at equal distances from a rear side of the target.