Title :
Design and evaluation of quantum dot sensors for making superficial x-ray energy radiation measurements
Author :
Kang, Q.S. ; Yeow, J.T.W. ; Barnett, R. ; Gao, X.
Abstract :
The extraordinary physical properties of quantum dot (QD) materials such as high radiation sensitivity and good radiation resistivity indicate their potential for use in the fabrication of radiation sensors. This paper reports the design and fabrication of two kinds of radiation sensors based on ZnO and CdTe QDs. Both sensors are characterized using a Gulmay Medical D3000 DXR unit for superficial x-ray irradiation with source photon energies that range from 36.9 to 64.9 keV. The QD radiation sensors exhibit excellent linearity with respect to different photon energy doses, radiation source to device surface distances, and field sizes. The effects of the electrode separation and the area density of the QD layer are also investigated. All sensors characterized show an outstanding repeatability under photon irradiation, with a signal variation less than 1%.
Keywords :
II-VI semiconductors; X-ray detection; cadmium compounds; electric sensing devices; electrodes; nanosensors; radiation detection; semiconductor quantum dots; wide band gap semiconductors; zinc compounds; CdTe; Gulmay Medical D3000 DXR unit; QD layer area density; QD radiation sensors; ZnO; electrode separation; electron volt energy 36.9 keV to 64.9 keV; photon energy doses; photon irradiation; quantum dot materials; quantum dot sensors; radiation sensitivity; radiation sensors; radiation source; source photon energy; superficial X-ray energy radiation measurements; superficial X-ray irradiation; Electrodes; Ionizing radiation sensors; Materials; Photonics; Sensor phenomena and characterization; Zinc oxide; CdTe; ZnO; quantum dot; radiation sensor; x-ray;
Conference_Titel :
Nano/Micro Engineered and Molecular Systems (NEMS), 2011 IEEE International Conference on
Conference_Location :
Kaohsiung
Print_ISBN :
978-1-61284-775-7
DOI :
10.1109/NEMS.2011.6017314
