论文信息 - Structural dependence of dielectric breakdown in ultra-thin gate oxides and its relationship to soft breakdown modes and device failure

Structural dependence of dielectric breakdown in ultra-thin gate oxides and its relationship to soft breakdown modes and device failure

For the first time, we report strong channel-length dependence and weak channel-width dependence of soft breakdown modes and device failure for ultra-thin gate oxides. For channel lengths around 0.2 /spl mu/m, oxide-breakdown events in FETs cause a sharp increase in FETs off-current which permanently degrades the switching performance of short-channel devices; this is not observed for longer channel length FETs. The results also indicate that both hard- and soft-breakdown events have a common origin but manifest themselves differently depending on the test structure and geometry being measured.

[1] Hideki Hasegawa,et al. Observation of Coulomb Blockade Type Conductance Oscillations up to 50 K in Gated InGaAs Ridge Quantum Wires Grown by Molecular Beam Epitaxy on InP Substrates , 1997 .

[2] J. Stathis,et al. Ultimate limit for defect generation in ultra-thin silicon dioxide , 1997 .