Add to ORKGThe effect of impact ionization on pseudomorphic high electron mobility transistors is studied using Monte Carlo simulations when these devices are scaled into deep decanano dimensions. The scaling of devices with gate lengths of 120, 90, 70, 50 and 30 nm has been performed in both lateral and vertical directions. The impact ionization is treated as an additional scattering mechanism in the Monte Carlo module. The critical drain voltage, at which device characteristics begin to indicate breakdown, decreases as the gate voltage is lowered. Similarly, the breakdown drain voltage is also found to decrease during the scaling process
We present a theoretical investigation of the near-breakdown scenario in pseudomorphic high electron...
The current-voltage characteristics of nanoscale silicon n-channel MOSFET with 50 nm channel length ...
A detailed experimental investigation of impact ionization in n-channel metal–oxide–semiconductor fi...
The effect of impact ionization on pseudomorphic high electron mobility transistors is studied using...
The effect of impact ionization on pseudomorphic high electron mobility transistors is stud-ied usin...
Impact ionization and thermionic tunnelling as two possible breakdown mechanisms in scaled pseudomor...
The breakdown limit of pseudomorphic high electron mobility transistors (PHEMTs) with double delta-d...
The performance enhancement associated with the scaling of pseudomorphic high electron mobility tran...
Impact ionization (II) has played an important role in semiconductor devices; yet the understanding ...
In this paper the effect of a body contact to increase the breakdown voltage in GaAs based pseudomor...
The impact ionization current in AlGaAs/GaAs HEMT's is evaluated by means of measurements of the gat...
We present theoretical investigations of electrical and optical phenomena in the near breakdown regi...
The effect of scaling into deep decanano dimensions on the performance of pseudomorphic high electro...
This paper presents a large signal model of impact ionization effects(Ii) of FETs and its CAD imple...
We present experimental and theoretical data related to the impact ionization in the near-breakdown ...
We present a theoretical investigation of the near-breakdown scenario in pseudomorphic high electron...
The current-voltage characteristics of nanoscale silicon n-channel MOSFET with 50 nm channel length ...
A detailed experimental investigation of impact ionization in n-channel metal–oxide–semiconductor fi...
The effect of impact ionization on pseudomorphic high electron mobility transistors is studied using...
The effect of impact ionization on pseudomorphic high electron mobility transistors is stud-ied usin...
Impact ionization and thermionic tunnelling as two possible breakdown mechanisms in scaled pseudomor...
The breakdown limit of pseudomorphic high electron mobility transistors (PHEMTs) with double delta-d...
The performance enhancement associated with the scaling of pseudomorphic high electron mobility tran...
Impact ionization (II) has played an important role in semiconductor devices; yet the understanding ...
In this paper the effect of a body contact to increase the breakdown voltage in GaAs based pseudomor...
The impact ionization current in AlGaAs/GaAs HEMT's is evaluated by means of measurements of the gat...
We present theoretical investigations of electrical and optical phenomena in the near breakdown regi...
The effect of scaling into deep decanano dimensions on the performance of pseudomorphic high electro...
This paper presents a large signal model of impact ionization effects(Ii) of FETs and its CAD imple...
We present experimental and theoretical data related to the impact ionization in the near-breakdown ...
We present a theoretical investigation of the near-breakdown scenario in pseudomorphic high electron...
The current-voltage characteristics of nanoscale silicon n-channel MOSFET with 50 nm channel length ...
A detailed experimental investigation of impact ionization in n-channel metal–oxide–semiconductor fi...