D ISSERTATION
Charge Trapping and Variability
in CMOS Technologies
at Cryogenic Temperatures
zur Erlangung des akademischen Grades
Doktor der technischen Wissenschaften
eingereicht an der Technischen Universität Wien
Fakultät für Elektrotechnik und Informationstechnik
von
J AKOB M ICHL
Matrikelnummer 1302759
Betreut von U NIV.P ROF . D IPL .-I NG . D R . TECHN . T IBOR G RASSER
und A SSISTANT P ROF . D IPL .-I NG . D R . TECHN . M ICHAEL WALTL
Wien, im August 2022
Contents
1.2.2 High Performance Computing
1.3 Reliability and Variability Issues in Cryo-CMOS
1.4 Scope and Outline of this Work
I Modeling and Simulation of Defects
2.2.1 Oxide Defects in Amorphous SiO
(a-SiO)
3.2 2-State Nonradiative Multiphonon Model
3.2.2 Benchmark of the WKB-Based 2-State NPM Approximation
3.2.3 Approximation for Undistorted Potential Energy Curves
3.3 4-State Nonradiative Multiphonon Model
4.1 Electrostatics of MOS Structures
4.2 Defect Distribution in the Oxide
II Defect Characterization at Cryogenic Temperatures
5 Measurement Setup and Technologies
5.2 Investigated MOS Transistor Technologies
5.3 Characterization of SmartArray Structures
6.2 Capacitance-Voltage Measurements
6.3 Resonant Tunneling at Cryogenic Temperatures
6.4 Variability Characterization
6.4.1 Variability Study on SmartArray A
6.4.2 Variability Study on SmartArray B
7 Charge Noise Characterization
7.1 Experimental Characterization
7.4.1 Temperature and Gate Voltage Variation
7.6 RTN in the Resonant Tunneling Region
8 Bias Temperature Instability
8.1 Extended Measure-Stress-Measure Scheme
8.2 Temperature Dependence of BTI Measurements