Abstract
In an RF-DC coupled magnetron sputtering system, the magnetron discharge was generated by a 13.56 MHz RF source, and a DC power supply was simultaneously applied to the target. When a low RF power and DC bias are applied simultaneously to the Mg target, the glow discharge during Ar-N2 plasma takes place at a low DC bias and the target DC current increases smoothly compared with the DC mode magnetron case. MgNx films have been prepared at the gas flow ratio (N2/ (Ar+N2)) of 0.2 by an RF-DC coupled magnetron sputtering. It was shown that the MgNx films are obtained at the target bias VT=-100 V, where the compositional ratio (N/Mg) is 0.44.
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