Time-dependent dielectric breakdown of ultra-thin silicon oxide

To evaluate the reliability of thin thermally grown oxide films, we examined their intrinsic breakdown characteristics and investigated oxide defects in them using ultra-thin oxides (3-10 nm). It is demonstrated that the breakdown time of oxide films becomes longer as the film thickness is decreased. Through the use of an electron trap generation model, we were able to explain this phenomenon and estimate the breakdown time under low electric field or low current conditions. Furthermore, we were able to determine that, with decreasing film thickness, the defect density of the initial short mode increases, while that of the weak-spot mode decreases.