Degradation in metal-oxide-semiconductor structure with ultrathin gate oxide due to external compressive stress
Journal
Applied Physics Letters
Journal Volume
79
Journal Issue
23
Pages
3797-3799
Date Issued
2001
Author(s)
Hong, C.-C.
Abstract
The effect of external stress on metal-oxide-semiconductor (MOS) structure with ultrathin gate oxide (∼1.5 nm) was studied. J - V characteristics of fresh and stressed samples revealed that the tensile stress had little effect on J - V curves, whereas the compressive stress obviously increased the leakage current by about several hundred in percentages with respect to the fresh sample, in both positive and negative gate biases. This increase in leakage current was suggested to be attributed to the increase of interface states and silicon bulk traps under external compressive stress in the MOS device with an inherent tensile stressed silicon. In addition, we also found that once the device was damaged by the previously applied compressive stress, the second applied compressive stress of the same magnitude would not create more damage unless the device was breakdown. © 2001 American Institute of Physics.
Type
journal article