Title :
High-energy ion irradiation effects on thin oxide p-channel MOSFETs
Author :
Candelori, A. ; Contarato, D. ; Bacchetta, N. ; Bisello, D. ; Hall, G. ; Noah, E. ; Raymond, M. ; Wyss, J.
Author_Institution :
Dipt. di Fisica, Universita di Padova, Italy
fDate :
6/1/2002 12:00:00 AM
Abstract :
P-channel MOSFETs of a commercial 0.25 μm CMOS technology have been irradiated by high linear energy transfer (LET) iodine (I) and low LET silicon (Si) ions up to 300 Mrad(Si) and 500 Mrad(Si), respectively. Threshold voltage variations (ΔVTH) up to -0.46 V and -0.44 V have been measured at the highest I and Si doses. Both oxide positive trapped charge (ΔVOX) and interface states (ΔVIT) contribute to ΔVTH with a ratio ΔVIT/ΔVOX ≈ 1 (< 1) for high (low) LET ions. After 40 days at room temperature, most of the positive charge is recombined by electron tunneling from the oxide interfaces, while only a small amount (6%-16%) of interface states is annealed. A huge 1/f noise increase (higher for I ions) is observed after irradiation. Finally, radiation induced soft breakdown (radiation-induced leakage current) conduction through the gate oxide is generated by high (low) LET ions for |Vg| > 1.6 V (> 3.4 V).
Keywords :
1/f noise; MOSFET; interface states; ion beam effects; semiconductor device breakdown; semiconductor device noise; semiconductor device testing; white noise; 0.25 μm CMOS technology; 0.25 micron; 1/f noise increase; 300 Mrad; 40 day; 500 Mrad; electron tunneling; high LET I ions; high-energy ion irradiation effects; interface states; low LET Si ions; oxide interfaces; oxide positive trapped charge; p-channel MOSFETs; positive charge recombination; radiation induced soft breakdown conduction; radiation-induced leakage current; thin oxide; threshold voltage variations; CMOS technology; Electrons; Energy exchange; Interface states; MOSFETs; Silicon; Spontaneous emission; Temperature; Threshold voltage; Tunneling;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2002.1039668
