Patent ID: 8563428

Claim:
A method of processing a substrate in a physical vapor deposition (PVD) chamber, the substrate having an opening formed in a first surface of the substrate and extending into the substrate towards an opposing second surface of the substrate, the opening having an aspect ratio of height to width of at least 5:1, the method comprising: applying RF power at a VHF frequency to a target disposed in a spaced apart relation to the substrate and comprising a metal to be deposited atop the substrate to form a plasma from a plasma-forming gas, wherein the target and the substrate are disposed opposite one another; sputtering metal atoms from the target using the plasma while maintaining a first pressure in the PVD chamber sufficient to ionize a predominant portion of the sputtered metal atoms; depositing the ionized metal atoms on a bottom surface of the opening and on the first surface of the substrate; applying a first RF power at a pulse frequency of about 100 Hz to about 10 kHz to a first electrode disposed beneath the substrate to redistribute at least some of the deposited metal atoms from the bottom surface and upper surface to sidewalls of the opening, wherein the ionized metal atoms are deposited for a first period of time that is about 4 to about 5 times longer than a second period of time during which the deposited metal atoms are redistributed; repeating the deposition of the ionized metal atoms and the redistribution of deposited metal atoms until a first layer of the metal is deposited on substantially all surfaces of the opening; wherein applying the first RF power to redistribute at least some of the deposited metal atoms further comprises: applying a second RF bias power to the electrode concurrently with the first RF bias power; wherein the first RF power controls a plasma energy proximate the substrate and the second RF bias power controls a distribution of the plasma energy proximate the substrate; and wherein the first RF power is applied at a first frequency and wherein the second RF bias power is applied at a third frequency greater than the first frequency.