Title :
Intrinsic Time Zero Dielectric Breakdown Characteristics of HfAlO Alloys
Author :
Jin Ju Kim ; MinWoo Kim ; Ukjin Jung ; Kyung Eun Chang ; Sangkyung Lee ; Yonghun Kim ; Young Gon Lee ; Rino Choi ; Byoung Hun Lee
Author_Institution :
Dept. of Nanobio Mater. & Electron., Gwangju Inst. of Sci. & Technol., Gwangju, South Korea
Abstract :
A thermochemical model describing the relationship between the dielectric breakdown field (EBD) and dielectric constant (k) of high- k dielectric has been calibrated for HfxAl1-xOy alloys with k values from 7 to 24. Metal-insulator-metal (MIM) capacitors with HfxAl1-xOy high- k dielectric films were used to extract the intrinsic time zero dielectric breakdown characteristics. Breakdown field values of these HfxAl1-xOy alloys were found to decrease as a function of k-0.77 while the electric field acceleration parameter, γ, increases as a function of k1.37. Using the thermochemical model calibrated with the experimental data, a HfxAl1-xOy 10-year lifetime was extrapolated as a function of the dielectric constant to provide insight for future dielectric development.
Keywords :
MIM devices; capacitors; electric breakdown; hafnium compounds; high-k dielectric thin films; permittivity; thermochemistry; HfxAl1-xOy; HfAlO alloys; MIM capacitors; dielectric breakdown field; dielectric constant; electric field acceleration parameter; high-k dielectric film; intrinsic time zero dielectric breakdown characteristics; metal-insulator-metal capacitors; thermochemical model; Aluminum oxide; Dielectric constant; Electric breakdown; High K dielectric materials; Leakage currents; Reliability; ${rm HfO}_{rm 2}$; ${rm Al}_{rm 2}{rm O}_{3}$; MIM capacitor; breakdown field; dielectric constant; lifetime; thermochemical model; time-dependent dielectric breakdown (TDDB);
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2013.2281857
