DocumentCode :
1469762
Title :
Performance Improvement in Charge-Trap Flash Memory Using Lanthanum-Based High- 
Blocking Oxide
Author :
He, Wei ; Pu, Jing ; Chan, Daniel S H ; Cho, Byung Jin
Author_Institution :
Dept. of Electr. & Comput. Eng., Nat. Univ. of Singapore, Singapore, Singapore
Volume :
56
Issue :
11
fYear :
2009
Firstpage :
2746
Lastpage :
2751
Abstract :
Lanthanum-based high-kappa dielectrics ( LaAlOx and LaHfOx) are systematically investigated as blocking oxide in charge-trap-type flash memory devices. Compared to Al2O3 blocking oxide, LaAlOx not only exhibits faster program speed, wider V th window, and more robustness to voltage stress but also has better retention performance when the temperature is below 120degC, particularly at 85degC . In contrast, although further improvements in V th window and robustness are achieved using a higher permittivity dielectric LaHfOx, its retention performance is poor. It is found that the retention property is critically determined by the conduction band offset of a blocking oxide. This is caused by the shallow trapping energy depth inside the nitride which is calculated to be 0.6-0.75 eV below the conduction band edge.
Keywords :
conduction bands; flash memories; high-k dielectric thin films; lanthanum compounds; permittivity; LaAlOx; LaHfOx; charge-trap-type flash memory devices; conduction band edge; conduction band offset; electron volt energy 0.6 eV to 0.75 eV; lanthanum-based high-kappa blocking oxide; lanthanum-based high-kappa dielectrics; permittivity; shallow trapping energy depth; temperature 85 degC; Aluminum oxide; Dielectric devices; Flash memory; Helium; Lanthanum; Permittivity; Robustness; SONOS devices; Silicon; Voltage; Blocking oxide; SONOS; lanthanum aluminum oxide; lanthanum hafnium oxide; nitride; trapping energy depth;
fLanguage :
English
Journal_Title :
Electron Devices, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9383
Type :
jour
DOI :
10.1109/TED.2009.2030833
Filename :
5263010
Link To Document :
