Add to ORKGElectron-beam-induced current (EBIC) of the scanning electron microscope (SEM) has been widely used for semiconductor devices and materials characterizations. The charge collection probability within a collecting junction plays an important role in determining the EBIC current. The conventional approach starts by solving the continuity equation to obtain the charge carrier density and then the analytical expression for the charge collection probability. Knowing the analytical expression of the charge collection probability enhances the study and development of the measurement technique. However, the conventional method usually requires lot of mathematical effort and the derived analytical expression is valid only for one particu...
There are two objectives to be achieved in this work. Firstly, it is desirable to determine a new me...
The diffusion lengths of materials within semiconductor devices have a very strong impact on device ...
The Electron-Beam-Induced Current (EBIC) of a Schottky barrier irradiated by an electron beam perpen...
The performance of electronic devices can be determined by the properties of the transport carriers ...
This paper discusses the modeling of the measurements which are performed with the charge-collection...
Une description alternative, basée sur le concept de probabilité de collecte, est proposée pour l'in...
The electron-beam-induced current (EBIC) technique using scanning electron microscope (SEM) is one o...
The conventional method of extracting the minority carrier diffusion length using the electron beam-...
Minority carrier diffusion lengths determine the performance of bipolar and photodiode devices. An e...
The performance of bipolar and photodiode devices is determined by the transport properties of the m...
Charge collection is one of the crucial processes to collect the induced current when a semiconducto...
For performing electron-beam-induced current (EBIC) measurements on sufficiently large samples, the ...
This paper deals with a mathematical model of a SEM-EBIC experiment devised to measure the diffusion...
This paper provides the analytical equation for the charge collection from a collecting region with ...
We propose a method for the quantitative evaluation of electron-beam-induced current profiles measur...
There are two objectives to be achieved in this work. Firstly, it is desirable to determine a new me...
The diffusion lengths of materials within semiconductor devices have a very strong impact on device ...
The Electron-Beam-Induced Current (EBIC) of a Schottky barrier irradiated by an electron beam perpen...
The performance of electronic devices can be determined by the properties of the transport carriers ...
This paper discusses the modeling of the measurements which are performed with the charge-collection...
Une description alternative, basée sur le concept de probabilité de collecte, est proposée pour l'in...
The electron-beam-induced current (EBIC) technique using scanning electron microscope (SEM) is one o...
The conventional method of extracting the minority carrier diffusion length using the electron beam-...
Minority carrier diffusion lengths determine the performance of bipolar and photodiode devices. An e...
The performance of bipolar and photodiode devices is determined by the transport properties of the m...
Charge collection is one of the crucial processes to collect the induced current when a semiconducto...
For performing electron-beam-induced current (EBIC) measurements on sufficiently large samples, the ...
This paper deals with a mathematical model of a SEM-EBIC experiment devised to measure the diffusion...
This paper provides the analytical equation for the charge collection from a collecting region with ...
We propose a method for the quantitative evaluation of electron-beam-induced current profiles measur...
There are two objectives to be achieved in this work. Firstly, it is desirable to determine a new me...
The diffusion lengths of materials within semiconductor devices have a very strong impact on device ...
The Electron-Beam-Induced Current (EBIC) of a Schottky barrier irradiated by an electron beam perpen...