Add to ORKGIn this work, we have systematically studied the frequency dispersion of the capacitance-voltage (C-V) characteristics of In0.53Ga 0.47As metal-oxide-semiconductor (MOS) capacitors in accumulation region at various temperatures based on a distributed border traps model. An empirical method to evaluate the frequency and temperature dependent response of the border traps distributed along the depth from the interface into the oxide is established. While the frequency dependent response results from the dependence of the time constant of the border traps on their depths, the temperature dependent response is ascribed to the thermal activated capture cross-section of the border traps due to the phonon-related inelastic capturing process. Conseq...
We will shortly review the basic physics of charge-carrier trapping and emission from trapping state...
We will shortly review the basic physics of charge-carrier trapping and emission from trapping state...
In this paper, we analyze the multi-frequency C-V curves of In0.53Ga0.47As MOSCAPs by employing phys...
This paper presents a detailed investigation of the temperature dependence of frequency dispersion o...
Abstract — By in-depth analysis of the electrical response of border traps in gate oxide, a new bord...
This paper reports physics based TCAD simulations of multi-frequency C-V curves of In0.53Ga0.47As MO...
As the Silicon based MOSFET scaling is close to an end, high mobility III-V MOSFET is considered one...
As the Silicon based MOSFET scaling is close to an end, high mobility III-V MOSFET is considered one...
This work demonstrates that when inelastic tunneling between oxide traps and semiconductor bands is ...
This work demonstrates that when inelastic tunneling between oxide traps and semiconductor bands i...
A recombination-controlled tunneling model is used to explain the strong frequency dispersion seenin...
In this paper, the capacitance frequency dispersion in strong accumulation of capacitance voltage cu...
The 300-K admittance characteristics of n+ In<sub>0.53</sub>Ga<sub>0.47</sub>...
We will shortly review the basic physics of charge-carrier trapping and emission from trapping state...
We will shortly review the basic physics of charge-carrier trapping and emission from trapping state...
We will shortly review the basic physics of charge-carrier trapping and emission from trapping state...
We will shortly review the basic physics of charge-carrier trapping and emission from trapping state...
In this paper, we analyze the multi-frequency C-V curves of In0.53Ga0.47As MOSCAPs by employing phys...
This paper presents a detailed investigation of the temperature dependence of frequency dispersion o...
Abstract — By in-depth analysis of the electrical response of border traps in gate oxide, a new bord...
This paper reports physics based TCAD simulations of multi-frequency C-V curves of In0.53Ga0.47As MO...
As the Silicon based MOSFET scaling is close to an end, high mobility III-V MOSFET is considered one...
As the Silicon based MOSFET scaling is close to an end, high mobility III-V MOSFET is considered one...
This work demonstrates that when inelastic tunneling between oxide traps and semiconductor bands is ...
This work demonstrates that when inelastic tunneling between oxide traps and semiconductor bands i...
A recombination-controlled tunneling model is used to explain the strong frequency dispersion seenin...
In this paper, the capacitance frequency dispersion in strong accumulation of capacitance voltage cu...
The 300-K admittance characteristics of n+ In<sub>0.53</sub>Ga<sub>0.47</sub>...
We will shortly review the basic physics of charge-carrier trapping and emission from trapping state...
We will shortly review the basic physics of charge-carrier trapping and emission from trapping state...
We will shortly review the basic physics of charge-carrier trapping and emission from trapping state...
We will shortly review the basic physics of charge-carrier trapping and emission from trapping state...
In this paper, we analyze the multi-frequency C-V curves of In0.53Ga0.47As MOSCAPs by employing phys...