Hole traps in silicon dioxides. Part I. Properties

As the downscaling of gate oxides continues, trap density in the oxide bulk will reduce, but positive charges formed near to the SiO₂/Si interface become relatively important. For gate oxides used in industry, hole trapping is the most important process for positive charge formation. Apart from as-grown hole traps, we recently reported that new hole traps were generated by electrical stresses. Information on these hole traps, however, is still limited. In part I of this work, properties of both generated and as-grown hole traps are investigated. For the first time, it will be clearly shown that generated hole traps consist of two components; cyclic positive charges (CPC) and antineutralization positive charges (ANPC). The charging and discharging rates of CPC are similar, while the neutralization of ANPC is much more difficult than its charging. Differences between them are also observed in generation kinetics and dependence on measurement temperature. Efforts will be made to explain their differences in terms of energy levels and to link them with positive charges reported in earlier works. We will also show that as-grown traps, regardless their distance from the interface, are not responsible for either ANPC or CPC. This is to say that generated hole traps are not the same as as-grown traps and their differences will be highlighted. In part II, hole trap generation mechanisms will be investigated.