Add to ORKGTemperature- and injection-dependent lifetime measurements have been made on single-crystal silicon wafers containing deliberately introduced Cu precipitates. Applying the Shockley-Read-Hall model to the data from p-type samples gives an accurate characterisation of these recombination centres in the form of two independent levels – one shallow centre near the conduction band, and one deep centre. These two levels provide a useful approximation to the distributed defect band that is known to exist in the upper band half by previous DLTS studies. In n-type silicon the situation is complicated by the Fermi-level shifting through the defect energy band with increasing temperature, altering the charge state of the precipitates, and therefore im...
6th International Conference on Crystalline Silicon Photovoltaics (SiliconPV), CEA INES, Chambery, F...
In monocrystalline silicon, which is easily condensed with copper and iridium, the recombination tim...
The ability of high temperature oxygen precipitate to act as a gettering sink for copper impurities ...
Copper precipitates have been deliberately formed in single-crystal silicon wafers in order to study...
The presence of copper contamination is known to cause strong light-induced degradation (Cu-LID) in ...
The presence of copper contamination is known to severely degrade the minority carrier lifetime of p...
To demonstrate the full potential of temperature- and injection-dependent lifetime spectroscopy (T-I...
Apart from detecting the presence of electrically active defects, lifetime measurements allow for a ...
Carrier lifetime is very sensitive to electrically active defects. Apart from detecting the presence...
An intentionally cobalt-contaminated p-type wafer was investigated by means of temperature- and inje...
AbstractThe paper is devoted to the identification of the metallic impurities in silicon wafers by u...
Injection-dependent minority carrier lifetime measurements are a valuable characterisation method fo...
In Silicon, impurities introduce recombination centers and degrade the minority carrier lifetime. It...
The interaction of copper and irradiation defects in FZ and CZ silicons is studied. The experimental...
The carrier lifetime is very sensitive to electrically active defects. Since the recombination activ...
6th International Conference on Crystalline Silicon Photovoltaics (SiliconPV), CEA INES, Chambery, F...
In monocrystalline silicon, which is easily condensed with copper and iridium, the recombination tim...
The ability of high temperature oxygen precipitate to act as a gettering sink for copper impurities ...
Copper precipitates have been deliberately formed in single-crystal silicon wafers in order to study...
The presence of copper contamination is known to cause strong light-induced degradation (Cu-LID) in ...
The presence of copper contamination is known to severely degrade the minority carrier lifetime of p...
To demonstrate the full potential of temperature- and injection-dependent lifetime spectroscopy (T-I...
Apart from detecting the presence of electrically active defects, lifetime measurements allow for a ...
Carrier lifetime is very sensitive to electrically active defects. Apart from detecting the presence...
An intentionally cobalt-contaminated p-type wafer was investigated by means of temperature- and inje...
AbstractThe paper is devoted to the identification of the metallic impurities in silicon wafers by u...
Injection-dependent minority carrier lifetime measurements are a valuable characterisation method fo...
In Silicon, impurities introduce recombination centers and degrade the minority carrier lifetime. It...
The interaction of copper and irradiation defects in FZ and CZ silicons is studied. The experimental...
The carrier lifetime is very sensitive to electrically active defects. Since the recombination activ...
6th International Conference on Crystalline Silicon Photovoltaics (SiliconPV), CEA INES, Chambery, F...
In monocrystalline silicon, which is easily condensed with copper and iridium, the recombination tim...
The ability of high temperature oxygen precipitate to act as a gettering sink for copper impurities ...