Title :
New insights in the relation between electron trap generation and the statistical properties of oxide breakdown
Author :
Degraeve, Robin ; Groeseneken, Guido ; Bellens, Rudi ; Ogier, Jean Luc ; Depas, Michel ; Roussel, Philippe J. ; Maes, Herman E.
Author_Institution :
IMEC, Leuven, Belgium
fDate :
4/1/1998 12:00:00 AM
Abstract :
In this paper it is demonstrated in a wide stress field range that breakdown in thin oxide layers occurs as soon as a critical density of neutral electron traps in the oxide is reached. It is proven that this corresponds to a critical hole fluence, since a unique relationship between electron trap generation and hole fluence is found independent of stress field and oxide thickness. In this way literature models relating breakdown to hole fluence or to trap generation are linked. A new model for intrinsic breakdown, based on a percolation concept, is proposed. It is shown that this model can explain the experimentally observed statistical features of the breakdown distribution, such as the increasing spread of the QBD-distribution for ultrathin oxides. An important consequence of this large spread is the strong area dependence of the QBD for ultrathin oxides
Keywords :
dielectric thin films; electric breakdown; electron traps; percolation; semiconductor device models; semiconductor-insulator boundaries; statistics; TDDB; area dependence; breakdown distribution; critical density; critical hole fluence; electron trap generation; intrinsic breakdown model; neutral electron traps; oxide breakdown; percolation concept; statistical properties; thin oxide layers; time dependent dielectric breakdown; ultrathin oxides; wide stress field range; Anodes; Charge carrier processes; Dielectric breakdown; Dielectric thin films; Electric breakdown; Electron traps; Helium; Integrated circuit reliability; MOS integrated circuits; Stress;
Journal_Title :
Electron Devices, IEEE Transactions on
