Performance Improvement of $\hbox {Sm}_{2}\hbox {O}_{3}$ MIM Capacitors by Using Plasma Treatment After Dielectric Formation

In this letter, we investigate the dependence of the performance of metal-insulator-metal (MIM) capacitors with Sm₂O₃ dielectric on plasma treatment (PT) performed before Sm₂O₃ deposition, after Sm₂O₃ deposition, or both before and after Sm₂O₃ deposition. By performing PT in N₂ ambient (PTN) after Sm₂O₃ dielectric formation, the effective quadratic voltage coefficient of capacitance (VCC) can be reduced from 498 to 234 ppm/V² and the effective linear VCC can be reduced from 742.3 to 172 ppm/V for MIM capacitor with Sm₂O₃ dielectric having a capacitance density of ~ 7.5 fF/mum². The leakage current density at +3.3 V can be reduced from 3.44 10^-7 to 1.60 times 10^-8 A/cm² by performing PTN in both before and after Sm₂O₃ deposition. PTN after dielectric formation is an effective way to improve the performance of high-kappa dielectric MIM capacitors for RF and analog/mixed signal IC applications.