Add to ORKGA method is presented, based on photothermal ionization spectroscopy (PTIS), for determining the shallow minority‐acceptor concentration in multiply doped silicon, over the concentration range 1013/cm3–1015/cm3. The method is an extension of a model developed previously for the PTIS response in a multiply doped semiconductor, which accounts for the experimentally observed change in signature, from negative to positive, of the lower‐energy lines of the deeper acceptor as the temperature is increased. It uses a calculated curve of the dependence on the shallow‐acceptor concentration of the temperature at which the change in signature occurs, for a given line, and compares it to a determination of this temperature from actual spectra for the s...
The impurity concentration is a crucial parameter for semiconductor thin films. Evaluating the impur...
The optical absorption line is 1s₁- 2p₀ at the absorption spectrum of arsenic doped silicon has been...
AbstractNowadays, compensated silicon (Si) is used in photovoltaic (PV) processes, whether it is thr...
A method is presented, based on photothermal ionization spectroscopy (PTIS), for determining the sha...
Low temperature microphotoluminescence spectroscopy (μ-PLS) is employed to determine the inhomogeneo...
In boron-doped silicon, optical absorption takes place through the excitation of bound holes from th...
This paper introduces a photoluminescence-based technique for determining the acceptor concentration...
Due to the small concentration of impurities normally present in semiconductors these impurity conce...
The reduction in acceptor concentration due to electron irradiation is determined from C-V character...
Optical and electrical techniques are used to characterise deep- levels in silicon that could have a...
Determination of dopant concentrations and mobilities is highly relevant for compensated silicon mat...
Temperature dependent majority charge carrier concentration and impurity concentration calc...
Diatomic centers of double donor doped silicon have lower chemical shifts as compared to the corres...
The trend for decreasing geometries within CMOS architecture is driving the need for ever shallower,...
A model of far infrared (FIR) dielectric response of shallow impurity states in a semiconductor has ...
The impurity concentration is a crucial parameter for semiconductor thin films. Evaluating the impur...
The optical absorption line is 1s₁- 2p₀ at the absorption spectrum of arsenic doped silicon has been...
AbstractNowadays, compensated silicon (Si) is used in photovoltaic (PV) processes, whether it is thr...
A method is presented, based on photothermal ionization spectroscopy (PTIS), for determining the sha...
Low temperature microphotoluminescence spectroscopy (μ-PLS) is employed to determine the inhomogeneo...
In boron-doped silicon, optical absorption takes place through the excitation of bound holes from th...
This paper introduces a photoluminescence-based technique for determining the acceptor concentration...
Due to the small concentration of impurities normally present in semiconductors these impurity conce...
The reduction in acceptor concentration due to electron irradiation is determined from C-V character...
Optical and electrical techniques are used to characterise deep- levels in silicon that could have a...
Determination of dopant concentrations and mobilities is highly relevant for compensated silicon mat...
Temperature dependent majority charge carrier concentration and impurity concentration calc...
Diatomic centers of double donor doped silicon have lower chemical shifts as compared to the corres...
The trend for decreasing geometries within CMOS architecture is driving the need for ever shallower,...
A model of far infrared (FIR) dielectric response of shallow impurity states in a semiconductor has ...
The impurity concentration is a crucial parameter for semiconductor thin films. Evaluating the impur...
The optical absorption line is 1s₁- 2p₀ at the absorption spectrum of arsenic doped silicon has been...
AbstractNowadays, compensated silicon (Si) is used in photovoltaic (PV) processes, whether it is thr...