Enhanced low-temperature corner current-carrying inherent to shallow trench isolation (STI)

Abstract: The subthreshold hump in the current-voltage (I0V ) characteristics caused by the current-carrying corner in shallow-trench-isolated (STI) n-channel MOSFET's is significantly enhanced at reduced temperatures. Numerical simulations show that the sensitivity of the corner channel's threshold voltage to temperature is smaller than that of the center channel's threshold voltage. This, together with the reduced subthreshold swing at low temperatures, contribute to an enhanced subthreshold hump, and is potentially i… Show more

“…Higher transconductance (G m ) and higher on-current (I ON ) are also clearly seen at 4 K. The kink effect caused by carrier freeze-out [17][18][19][20] is seen in the subthreshold region in some of the devices at 4 K.…”

Effect of percolation path on temperature dependence of threshold voltage variability in bulk MOSFETs

“…Higher transconductance (G m ) and higher on-current (I ON ) are also clearly seen at 4 K. The kink effect caused by carrier freeze-out [17][18][19][20] is seen in the subthreshold region in some of the devices at 4 K.…”

Effect of percolation path on temperature dependence of threshold voltage variability in bulk MOSFETs

Gate-controlled transport in GaN nanowire devices with high- k Si3N4 gate dielectrics

De-embedding length-dependent edge-leakage current in shallow trench isolation submicron MOSFETs