SEL Cross Section Energy Dependence Impact on the High Energy Accelerator Failure Rate

Author

Alia, R. Garcia ; Blackmore, Ewart W. ; Brugger, M. ; Danzeca, S. ; Ferlet-Cavrois, Veronique ; Gaillard, R. ; Mekki, J. ; Poivey, C. ; Roed, Ketil ; Saigne, F. ; Spiezia, G. ; Trinczek, Michael ; Uznanski, Slawosz ; Wrobel, F.

Author_Institution

CERN, Genève, Switzerland

Volume

61

Issue

6

fYear

2014

fDate

Dec. 2014

Firstpage

2936

Lastpage

2944

Abstract

We use a single event latchup (SEL) model calibrated to heavy ion (HI) and proton data below 230 MeV to extrapolate the proton cross section to larger energies and evaluate the impact of the potential cross section increase with energy on the SEL rate in different environments. We show that in the case of devices with a large LET onset for HI and a certain amount of tungsten near the sensitive volume (SV), the calculated failure rates for energetic environments based on monoenergetic test data can significantly underestimate the real value. In addition, we show through measurements using a 480 MeV beam and an inspection of the device´s architecture that the model was successful in estimating the SEL cross section and tungsten volume per cell.

Keywords

calibration; proton accelerators; SEL cross section energy dependence impact; heavy ion data; high energy accelerator failure rate; monoenergetic test data; proton data; single event latchup model; Failure analysis; Large Hadron Collider; Monte Carlo methods; Proton radiation effects; Tungsten; CERN; FLUKA; High Energy Hadron; LHC; Monte Carlo simulations; SEL; high-Z materials; proton radiation effects;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2014.2356641

Filename

6935024