Title :
Microbeam studies of single-event effects
Author_Institution :
Sandia Nat. Labs., Albuquerque, NM, USA
fDate :
4/1/1996 12:00:00 AM
Abstract :
The application of heavy-ion microbeam systems to the study of single-event effects is reviewed. Apertured microbeam systems have been used since the early 1980s to study charge collection. This has led to the development of the present models for the transport of charge following heavy-ion strikes in semiconductors. More recently, magnetically focused scanned microbeams have allowed direct imaging of charge collection regions with a technique called IBICC (ion-beam induced charge collection). Charge collection depth can be extracted from the pulse height spectrum from well-defined regions of the IC. When applied to single event upset, those regions sensitive to upset have been directly mapped with scanned microbeam systems. Damage effects due to total-ionizing dose and displacement damage are discussed. These techniques have removed uncertainty associated with broad-beam techniques, and improved our understanding of the mechanisms responsible for single-event effects in ICs
Keywords :
aerospace testing; beam handling techniques; integrated circuit testing; integrated memory circuits; ion beam effects; particle beam diagnostics; particle beam focusing; radiation hardening (electronics); space vehicle electronics; CMOS DRAM; IBICC; IC testing; SRAM; apertured microbeam system; broad-beam techniques; charge collection; damage effects; direct imaging; displacement damage; heavy-ion microbeam; heavy-ion strikes; ion-beam induced charge collection; magnetically focused scanned microbeams; pulse height spectrum; scanned microbeam systems; semiconductors; single-event effects; total-ionizing dose; transport of charge; uncertainty; Apertures; Charge measurement; Circuit testing; Collimators; Coupling circuits; Current measurement; Integrated circuit measurements; Ion beams; Magnetic semiconductors; Voltage;
Journal_Title :
Nuclear Science, IEEE Transactions on
