Comparison of Electron and Hole Charge-Discharge Dynamics in Germanium Nanocrystal Flash Memories
Akca, I. B.
Please cite this item using this persistent URLhttp://hdl.handle.net/11693/13498
Applied Physics Letters
- Department of Physics 
American Institute of Physics
Electron and hole charge and discharge dynamics are studied on plasma enhanced chemical vapor deposition grown metal-oxide-silicon germanium nanocrystal flash memory devices. Electron and hole charge and discharge currents are observed to differ significantly and depend on annealing conditions chosen for the formation of nanocrystals. At low annealing temperatures, holes are seen to charge slower but to escape faster than electrons. They discharge slower than electrons when annealing temperatures are raised. The results suggest that discharge currents are dominated by the interface layer acting as a quantum well for holes and by direct tunneling for elec-trons. (c) 2008 American Institute of Physics.
Akca, I. B., Dâna, A., Aydinli, A., & Turan, R. (2008). Comparison of electron and hole charge-discharge dynamics in germanium nanocrystal flash memories. Applied Physics Letters, 92(5), 052103.