F. Cerio, Rutvik J. Mehta, P. Turner, Jinho Kim, R. Caldwell
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Abstract
As feature sizes shrink with each integration node, wire and interconnect resistivity in the back end of the line increasingly becomes a challenge due to size dependent effects. Microstructural control of metal thin films is critical for accessing the lowest resistivities alongside materials choice. In this paper, we describe depositing a metal material onto a substrate via ion beam deposition with assist in a process chamber at a temperature of at least 250°C to produce ultra-low resistivity metal films. Ion beam deposited thin tungsten films were grown with large and highly oriented α(110) grains having a resistivity less than 9 μΩ-cm and thickness less than 300 Å, with no discernable β-phase, presaging benefits for memory and logic applications using tungsten for wiring.
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