Add to ORKGThe layered III-VI semiconductor Gallium Telluride has potential for room temperature gamma ray spectroscopy applications due to its band gap of 1.67 eV, and average atomic number of 45:31 (Ga) and 52 (Te). The physical properties of GaTe are highly anisotropic due to covalent bonding within the layer and van der Waals bonding between layers. This work reports the results of surface and bulk processing, surface characterization, and electrical characterization of diodes formed on both the laminar and non-laminar GaTe surfaces. Alpha detection measurements were also performed
The development of high-performance radiation detectors is essential for commercial, scientific, and...
Bulk semi-insulating GaAs grown by the liquid encapsulated Czochralski (LEC) method has been investi...
Semiconductor-based gamma-ray-imaging detectors are under development for use in high-resolution nuc...
Two growth methods are investigated for producing detector-grade large volume layered chalco...
Thallium-bromide (TlBr), mercury-sulfide (HgS), and mercury-oxide (HgO) detectors have been investig...
The successful development of lithium-drifted Ge detectors in the 1960's marked the beginning of the...
Mercuric iodide (HgI2) detectors were studied as potential gamma-ray spectrometers that can operate ...
A thin film semiconductor device was grown by MBE methods, characterized for material quality and ev...
Wide bandgap semiconductors are being widely investigated because they have the potential to satisfy...
This dissertation details the analysis and characterization of coplanar grid CdZnTe detectors used f...
Results obtained with Gallium Arsenide (GaAs) Schottky barrier particle detectors are presented. Sem...
The advanced detector development project at the University of Michigan has completed the first full...
The advanced detector development project at the University of Michigan has completed the first full...
This paper demonstrates the enhanced capability of single polarity charge sensing, the 3‐dimensional...
Anisotropic wide-bandgap gallium selenide (GaSe) crystals were grown using high purity (7N) Ga and z...
The development of high-performance radiation detectors is essential for commercial, scientific, and...
Bulk semi-insulating GaAs grown by the liquid encapsulated Czochralski (LEC) method has been investi...
Semiconductor-based gamma-ray-imaging detectors are under development for use in high-resolution nuc...
Two growth methods are investigated for producing detector-grade large volume layered chalco...
Thallium-bromide (TlBr), mercury-sulfide (HgS), and mercury-oxide (HgO) detectors have been investig...
The successful development of lithium-drifted Ge detectors in the 1960's marked the beginning of the...
Mercuric iodide (HgI2) detectors were studied as potential gamma-ray spectrometers that can operate ...
A thin film semiconductor device was grown by MBE methods, characterized for material quality and ev...
Wide bandgap semiconductors are being widely investigated because they have the potential to satisfy...
This dissertation details the analysis and characterization of coplanar grid CdZnTe detectors used f...
Results obtained with Gallium Arsenide (GaAs) Schottky barrier particle detectors are presented. Sem...
The advanced detector development project at the University of Michigan has completed the first full...
The advanced detector development project at the University of Michigan has completed the first full...
This paper demonstrates the enhanced capability of single polarity charge sensing, the 3‐dimensional...
Anisotropic wide-bandgap gallium selenide (GaSe) crystals were grown using high purity (7N) Ga and z...
The development of high-performance radiation detectors is essential for commercial, scientific, and...
Bulk semi-insulating GaAs grown by the liquid encapsulated Czochralski (LEC) method has been investi...
Semiconductor-based gamma-ray-imaging detectors are under development for use in high-resolution nuc...