Skip to main content

New thermally stimulated emission spectrometer for the detection of ultra-shallow low-density traps

Research Authors
Mahmoud Abdel Aziem Bakr Arby
Research Abstract

Electron/hole traps alter the optical and electrical properties of materials by creating additional recombination pathways, trapping or providing charge carriers and modifying exciton dynamics. Understanding the defect/trap dynamics is crucial to control the optoelectronic properties of materials, and measuring donor/acceptor ionization energy is critical in semiconductor research. Here, we developed a highly sensitive thermally stimulated emission (TSE) spectrometer for the low temperature regime of 9–325 K to detect and characterize shallow traps in bandgap materials with enhanced sensitivity. It provides a powerful characterization tool for a wide range of semiconductors and electronic and photonic materials. This technique is ideal where electrical methods cannot be used for donor/acceptor characterization as in powder, irregular shape and thickness, and high resistive samples. 

Research Date
Research Department
Research Journal
Journal of Applied Physics
Research Publisher
AIP
Research Vol
130
Research Year
2021
Research Pages
033104-10