We report on the investigation of large-area GaAs Schottky diodes in view of their potential use as target detectors in the particle Dark Matter search. Rectifying contacts of different sizes have been realized with standard techniques on Si-LEC material. The I-V characteristics showed no substantial differences with respect to those of small-size diodes. Particularly, the inverse current simply scaled with the contact area regardless of the lack of any surface passivation process. To the contrary, marked differences are found in the detector response which point to a sizeable effect of the metal-semiconductor interfacial region in determining the ultimate resolution in the device
Current pulses produced by absorption of picosecond near-infrared light pulses have been used in ord...
In this work we present the results of a systematic study about SI GaAs detectors as a function of s...
At the beginning of the next century the Large Hadron Collider (LHC) will start generating pp collis...
We report on the investigation of large-area GaAs Schottky diodes in view of their potential use as ...
Bulk GaAs, a wide band gap semiconductor, shows potential as a room temperature radiation detector. ...
Radiation detectors work as Schottky devices. The Schottky contact of the investigated detectors con...
The performance of semi-insulating GaAs detectors, grown with the LEC technique, has been studied by...
Research into new semiconductor materials for measurement of electromagnetic radiation over a wide r...
This thesis describes the examination of some of the properties of Gallium Arsenide (GaAs), primari...
High leakage currents and incomplete charge collection limit the performance of detectors obtained f...
In this work we present the results of a systematic study about SI GaAs detectors as a function of s...
GaAs is a wide band gap semiconductor (1.42 eV) with potential use as a room temperature radiation d...
The present understanding of the charge collection in GaAs detectors with respect to the materials u...
We investigated Semi-Insulating (SI) GaAs Schottky diode particle detectors, fabricated either on si...
Current pulses produced by absorption of picosecond near-infrared light pulses have been used in ord...
In this work we present the results of a systematic study about SI GaAs detectors as a function of s...
At the beginning of the next century the Large Hadron Collider (LHC) will start generating pp collis...
We report on the investigation of large-area GaAs Schottky diodes in view of their potential use as ...
Bulk GaAs, a wide band gap semiconductor, shows potential as a room temperature radiation detector. ...
Radiation detectors work as Schottky devices. The Schottky contact of the investigated detectors con...
The performance of semi-insulating GaAs detectors, grown with the LEC technique, has been studied by...
Research into new semiconductor materials for measurement of electromagnetic radiation over a wide r...
This thesis describes the examination of some of the properties of Gallium Arsenide (GaAs), primari...
High leakage currents and incomplete charge collection limit the performance of detectors obtained f...
In this work we present the results of a systematic study about SI GaAs detectors as a function of s...
GaAs is a wide band gap semiconductor (1.42 eV) with potential use as a room temperature radiation d...
The present understanding of the charge collection in GaAs detectors with respect to the materials u...
We investigated Semi-Insulating (SI) GaAs Schottky diode particle detectors, fabricated either on si...
Current pulses produced by absorption of picosecond near-infrared light pulses have been used in ord...
In this work we present the results of a systematic study about SI GaAs detectors as a function of s...
At the beginning of the next century the Large Hadron Collider (LHC) will start generating pp collis...