Title :
Interface states at high- к /InGaAs interface: H2O vs. O3 based ALD dielectric
Author :
Madan, H. ; Veksler, D. ; Chen, Y.T. ; Huang, J. ; Goel, N. ; Bersuker, G. ; Datta, S.
Abstract :
By combining the capacitance and conductance analysis techniques, we obtained the Dit distribution throughout the band gap of In0.53Ga0.47As capacitors with H2O-based and O3-based ALD oxides. The choice of appropriate temperature to obtain the quasi-static C-V and the DC voltage sweep rate is an essential for the correct extraction of Dit. Simultaneously we obtained the trap kinetics characteristics. We claim that: (i) the H2O-based ALD deposition results in a fewer traps in the lower portion of In0.53Ga0.47As band gap, (ii) is related to the formation of the thicker native oxide in the O3-based samples; (iii) the mid gap traps in the H2O-based samples are significantly slower than those in the O3-based samples, which indicate their different nature.
Keywords :
III-V semiconductors; alumina; atomic layer epitaxial growth; capacitance; electric admittance; energy gap; gallium arsenide; high-k dielectric thin films; indium compounds; interface states; ohmic contacts; semiconductor epitaxial layers; semiconductor growth; surface states; thin film capacitors; ALD dielectric oxides; Al2O3-In0.53Ga0.47As; Dit distribution; DC voltage sweep rate; H2O-based ALD deposition; InP; band gap; capacitance; capacitors; conductance analysis techniques; high-κ dielectrics; interface states; ohmic contact; quasistatic current-voltage sweep rate; Capacitance-voltage characteristics; Oxidation;
Conference_Titel :
Device Research Conference (DRC), 2011 69th Annual
Conference_Location :
Santa Barbara, CA
Print_ISBN :
978-1-61284-243-1
Electronic_ISBN :
1548-3770
DOI :
10.1109/DRC.2011.5994443
