Add to ORKGNoise caused by surface-leakage current can degrade the performance of CdZnTe spectrometers, particularly devices with closely spaced contacts such as coplanar grid detectors. In order to reduce surface leakage, the authors are treating CdZnTe detector surfaces with energetic, neutral oxygen atoms. Energetic oxygen atoms react with the surface to form a resistive oxide layer. Because the reaction is effective at room temperature, deleterious heating of the substrate is avoided. In most cases, leakage current and noise are shown to decrease significantly after treatment. The effect of the treatment on the performance of coplanar grid detectors is presented
This dissertation details the analysis and characterization of coplanar grid CdZnTe detectors used f...
Semiconductor materials have a vast range of applications varying from basic electronic products to ...
The electrical properties of CdZnTe radiation detectors are largely determined by electron and hole ...
Surface processing plays a major role in manufacturing CdZnTe semiconductor devices used for radiati...
Noise in CdZnTe devices with different electrode configurations was investigated. Measurements on de...
Dark currents, including those in the surface and bulk, are the leading source of electronic noise i...
In the present work we studied an influence of different types of surface etching and surface passiv...
Surface resistivity is an important parameter of multi-electrode CZT detectors such as coplanar-grid...
The quality of a CdZnTe-based X-ray detector is highly related to the interface between semiconducto...
CdZnTe and CdTe detector performance can be significantly improved with low-noise electronics. The m...
Cadmium Zinc Telluride (CdZnTe or CZT) is a very attractive material for room-temperature semiconduc...
The Vertical Gradient Freeze (VGF) method has been used to grow high resistivity Cadmium Zinc Tellur...
The coplanar-grid (CPG) and other electron only detection techniques have made possible the use of C...
Several cadmium zinc telluride (CZT) crystals were fabricated into radiation detectors using methods...
Recently, much has appeared in the literature concerning methods to improve the resolution and photo...
This dissertation details the analysis and characterization of coplanar grid CdZnTe detectors used f...
Semiconductor materials have a vast range of applications varying from basic electronic products to ...
The electrical properties of CdZnTe radiation detectors are largely determined by electron and hole ...
Surface processing plays a major role in manufacturing CdZnTe semiconductor devices used for radiati...
Noise in CdZnTe devices with different electrode configurations was investigated. Measurements on de...
Dark currents, including those in the surface and bulk, are the leading source of electronic noise i...
In the present work we studied an influence of different types of surface etching and surface passiv...
Surface resistivity is an important parameter of multi-electrode CZT detectors such as coplanar-grid...
The quality of a CdZnTe-based X-ray detector is highly related to the interface between semiconducto...
CdZnTe and CdTe detector performance can be significantly improved with low-noise electronics. The m...
Cadmium Zinc Telluride (CdZnTe or CZT) is a very attractive material for room-temperature semiconduc...
The Vertical Gradient Freeze (VGF) method has been used to grow high resistivity Cadmium Zinc Tellur...
The coplanar-grid (CPG) and other electron only detection techniques have made possible the use of C...
Several cadmium zinc telluride (CZT) crystals were fabricated into radiation detectors using methods...
Recently, much has appeared in the literature concerning methods to improve the resolution and photo...
This dissertation details the analysis and characterization of coplanar grid CdZnTe detectors used f...
Semiconductor materials have a vast range of applications varying from basic electronic products to ...
The electrical properties of CdZnTe radiation detectors are largely determined by electron and hole ...