Fundamental narrow MOSFET gate dielectric breakdown behaviors and their impacts on device performance

The post-breakdown (BD) degradation of ultrathin gate oxide Si MOSFET devices is studied by electrical characterization, cross-sectional transmission electron microscopy (TEM) analysis, and theoretical simulation. It is shown that MOSFET devices can remain functional even if a physically direct short between the gate electrode and Si substrate is established. On the other hand, a device can suffer from total failure while no physical damages can be observed under TEM. The physical location of the BD point is shown to be of critical importance in determining the type of BD and the post-BD electrical characteristics of the device. The ability to precisely categorize the gate oxide BD modes in narrow MOSFETs enables us to reevaluate the impact of the gate dielectric BD on the post-BD device performance, and its influence at the circuit levels.