Detection of current-induced vacancies in thin aluminum–copper lines using positrons

Abstract

In situ depth‐resolved positron annihilation spectroscopy (PAS) is used to show dynamic formation of vacancies in 1 μm×1 μm Al‐0.5 wt % Cu lines under current flow. We show that the number of vacancies in these lines increases when a dc current (8×10⁴ A/cm²) is applied. This increase in vacancy concentration is substantially greater than that due to thermal vacancy generation alone (4×10¹⁸ cm⁻³ versus 3×10¹⁷ cm⁻³). Isothermal measurements (with no current flow) yield a vacancy formation energy of 0.60±0.02 eV. These results show that PAS can be used to examine the initial stages of interconnect damage due to electromigration.