Semi-insulating gallium arsenide has been irradiated by protons and by gamma-rays with different doses. The irradiation-induced deep level defects have been investigated by current transient spectroscopy to find their energy, capture cross sections and generation rate.Two electron traps at Ec+0.14eV(E13) and Ec-0.70eV(E4) and a hole trap at Ec-0.14eV(H2) in addition to the levels existing before the irradiation have been detected in the irradiated samples. These findings have been related to the performance of gallium arsenide charge particle detectors
The distribution of the electric field and its spatial extent are key predictors of the charge colle...
The distribution of the electric field and its spatial extent are key predictors of the charge colle...
Deep level transient spectroscopy was employed to determine the electrical properties of defects ind...
In order to expand the technology of III-V semiconductor devices with quantum structures to both ter...
The radiation damage in 100 mu m thick Schottky diodes made on semi-insulating undoped GaAs material...
The radiation damage in 100 mu m thick Schottky diodes made on semi-insulating undoped GaAs material...
We investigated Semi-Insulating (SI) GaAs Schottky diode particle detectors, fabricated either on si...
We investigated Semi-Insulating (SI) GaAs Schottky diode particle detectors, fabricated either on si...
Deep level transient spectroscopy was employed to determine the electrical properties of defects ind...
Deep level transient spectroscopy was employed to determine the electrical properties of defects ind...
Deep level transient spectroscopy was employed to determine the electrical properties of defects ind...
Bulk semi-insulating GaAs grown by the liquid encapsulated Czochralski (LEC) method has been investi...
Charge signal and noise were studied in non-irradiated and irradiated Schottky barrier, circular pad...
In order to expand the technology of III-V semiconductor devices with quantum structures to both ter...
The distribution of the electric field and its spatial extent are key predictors of the charge colle...
The distribution of the electric field and its spatial extent are key predictors of the charge colle...
The distribution of the electric field and its spatial extent are key predictors of the charge colle...
Deep level transient spectroscopy was employed to determine the electrical properties of defects ind...
In order to expand the technology of III-V semiconductor devices with quantum structures to both ter...
The radiation damage in 100 mu m thick Schottky diodes made on semi-insulating undoped GaAs material...
The radiation damage in 100 mu m thick Schottky diodes made on semi-insulating undoped GaAs material...
We investigated Semi-Insulating (SI) GaAs Schottky diode particle detectors, fabricated either on si...
We investigated Semi-Insulating (SI) GaAs Schottky diode particle detectors, fabricated either on si...
Deep level transient spectroscopy was employed to determine the electrical properties of defects ind...
Deep level transient spectroscopy was employed to determine the electrical properties of defects ind...
Deep level transient spectroscopy was employed to determine the electrical properties of defects ind...
Bulk semi-insulating GaAs grown by the liquid encapsulated Czochralski (LEC) method has been investi...
Charge signal and noise were studied in non-irradiated and irradiated Schottky barrier, circular pad...
In order to expand the technology of III-V semiconductor devices with quantum structures to both ter...
The distribution of the electric field and its spatial extent are key predictors of the charge colle...
The distribution of the electric field and its spatial extent are key predictors of the charge colle...
The distribution of the electric field and its spatial extent are key predictors of the charge colle...
Deep level transient spectroscopy was employed to determine the electrical properties of defects ind...
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