Radiation Effects in CMOS Isolation Oxides: Differences and Similarities With Thermal Oxides

Author

Gaillardin, M. ; Goiffon, Vincent ; Marcandella, C. ; Girard, S. ; Martinez, Manuel ; Paillet, P. ; Magnan, Pierre ; Estribeau, Magali

Author_Institution

DIF, CEA, Arpajon, France

Volume

60

Issue

4

fYear

2013

fDate

Aug. 2013

Firstpage

2623

Lastpage

2629

Abstract

Radiation effects in thick isolation oxides of modern CMOS technologies are investigated using dedicated test structures designed using two commercial foundries. Shallow Trench Isolation and Pre-Metal Dielectric are studied using electrical measurements performed after X-ray irradiations and isochronal annealing cycles. This paper shows that trapping properties of such isolation oxides can strongly differ from those of traditional thermal oxides usually used to process the gate oxide of Metal Oxide Semiconductor Field Effect Transistors. Buildup and annealing of both radiation-induced oxide-trap charge and radiation-induced interface traps are discussed as a function of the oxide type, foundry and bias condition during irradiation. Radiation-induced interface traps in such isolation oxides are shown to anneal below 100°C contrary to what is usually observed in thermal oxides. Implications for design hardening and radiation tests of CMOS Integrated Circuits are discussed.

Keywords

CMOS integrated circuits; X-ray effects; annealing; electron traps; hole traps; isolation technology; radiation hardening (electronics); CMOS isolation oxide; X-ray irradiation; dedicated test structure; electrical measurements; gate oxide; isochronal annealing cycle; isolation oxides annealling; metal oxide semiconductor field effect transistor; premetal dielectrics; radiation effect; radiation induced interface trap; radiation induced oxide trap charge; shallow trench isolation; thermal oxides; trap build-up; trapping properties; Annealing; CMOS integrated circuits; Electron traps; Logic gates; Radiation effects; Silicon; CMOS; CMOS image sensors (CIS); pre-metal dielectric (PMD); shallow trench isolation (STI); total ionizing dose (TID); transistors;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2013.2249094

Filename

6494702