National Security Technologies (NSTec) has developed calibration procedures for X-ray imaging systems. The X-ray sources that are used for calibration are both diode type and diode/fluorescer combinations. Calibrating the X-ray detectors is key to accurate calibration of the X-ray sources. Both energy dispersive detectors and photodiodes measuring total flux were used. We have developed calibration techniques for the detectors using radioactive sources that are traceable t
This guide provides recommended procedures for the operation, testing and calibration of equipment u...
A complementary pair of rapid methods for the energy calibration of solid-state detectors have been ...
Methods of calibrating both film and thermoluminescent dosimeters (TLD) to photon and electron radia...
The purpose of the project presented is to develop methods to accurately calibrate X-ray imaging dev...
X-Ray sources, detectors and optical components are now used in a wide range of applications. What i...
In this work we compare different calibration sources and focus on their combination to optimize the...
The growing interest for the Imaging Plates, due to their high sensitivity range and versatility, ha...
A new method for calibration was developed that takes theenergy deposited by radioisotope sources in...
Describes the calibration and irradiation of x-ray and gamma-ray instruments in terms of the physica...
The proper characterization of an X-ray unit is necessary for the utilization of the source as a dos...
Background The method of measuring doses based on the thermoluminescence phenomenon is not an absolu...
The energy information acquired using spectral X-ray detectors allows noninvasive identification and...
Accurate energy calibration is critical for the application of energy-resolved photon-counting detec...
The precise and accurate measurement of X-rays in the 2 keV to 100 keV region is crucial to the unde...
BACKGROUND: Simultaneous real-time fluoroscopic and nuclear imaging could benefit image-guided (onco...
This guide provides recommended procedures for the operation, testing and calibration of equipment u...
A complementary pair of rapid methods for the energy calibration of solid-state detectors have been ...
Methods of calibrating both film and thermoluminescent dosimeters (TLD) to photon and electron radia...
The purpose of the project presented is to develop methods to accurately calibrate X-ray imaging dev...
X-Ray sources, detectors and optical components are now used in a wide range of applications. What i...
In this work we compare different calibration sources and focus on their combination to optimize the...
The growing interest for the Imaging Plates, due to their high sensitivity range and versatility, ha...
A new method for calibration was developed that takes theenergy deposited by radioisotope sources in...
Describes the calibration and irradiation of x-ray and gamma-ray instruments in terms of the physica...
The proper characterization of an X-ray unit is necessary for the utilization of the source as a dos...
Background The method of measuring doses based on the thermoluminescence phenomenon is not an absolu...
The energy information acquired using spectral X-ray detectors allows noninvasive identification and...
Accurate energy calibration is critical for the application of energy-resolved photon-counting detec...
The precise and accurate measurement of X-rays in the 2 keV to 100 keV region is crucial to the unde...
BACKGROUND: Simultaneous real-time fluoroscopic and nuclear imaging could benefit image-guided (onco...
This guide provides recommended procedures for the operation, testing and calibration of equipment u...
A complementary pair of rapid methods for the energy calibration of solid-state detectors have been ...
Methods of calibrating both film and thermoluminescent dosimeters (TLD) to photon and electron radia...