Title :
Oxide-trap-induced instability of GIDL of thermally nitrided-oxide N-MOSFET´s under stress
Author :
Ma, Z.J. ; Lai, Pui T. ; Cheng, Y.C.
Author_Institution :
Dept. of Electr. & Electron. Eng., Hong Kong Univ., Hong Kong
Abstract :
Some holes created from band-to-band (B-B) tunneling in the deep-depletion region of the drain can be injected into the gate oxide and reduce the vertical field there. As a result, gate-induced drain leakage (GIDL) current decreases. This kind of hot-hole injection depends on the voltage difference between the drain and gate, due to nitridation-induced lowering of the barrier height for hole injection at the SiO/sub 2/-Si interface. The subsequent hot-electron injection can neutralize these trapped holes, and make the GIDL current recover, and even increase beyond its original value. Since the trapped charges also affect the lateral field, the observed change in the ratio of substrate to source currents further confirms the proposed mechanism for the GIDL degradation and recovery behavior.<>
Keywords :
electron traps; hole traps; hot carriers; insulated gate field effect transistors; leakage currents; semiconductor-insulator boundaries; stability; tunnelling; NMOSFET; SiNo; SiO/sub 2/-Si interface; band to band tunnelling; barrier height; deep-depletion region; gate-induced drain leakage; hot-electron injection; hot-hole injection; n-channel MOSFET; nitridation-induced lowering; oxide trap induced instability; thermally nitrided-oxide; trapped charges; trapped holes neutralisation; Current measurement; Degradation; Electron traps; Hot carrier effects; Hot carriers; MOS devices; MOSFET circuits; Thermal stresses; Tunneling; Voltage;
Journal_Title :
Electron Device Letters, IEEE
