We develop metrics for assessing the effectiveness of proton SEE data for bounding heavy-ion SEE susceptibility. The metrics range from simple geometric criteria requiring no knowledge of the test articles to bounds of SEE rates
Galactic cosmic rays (GCR) originating from outside the solar system create a unique radiation envir...
The Heavy Ions In Space (HIIS) experiment has two primary objectives: (1) to measure the elemental c...
Protons with sufficiently high energy, provided in a broad field covering on the order of 0.1m2 can ...
The fact that protons cause single-event effects (SEE) in most devices through production of light-i...
Although proton SEE testing can place constraints on some heavy-ion SEE susceptibilities, it is impo...
In 1972, when engineers at Hughes Aircraft Corporation discovered that errors in their satellite avi...
We apply a Monte Carlo based integral rectangular parallel-piped (IRRP) approach to evaluate the imp...
We have examined the effect on device SV geometry on the conclusions that can be drawn from proton S...
The intent of this document is to provide guidance on when and what type of -SEE tests should be per...
We present the results of SEE testing with high energy protons and with low and high energy heavy io...
This paper describes a new approach to analyzing and achieving high radiation tolerance using commer...
In this study, we investigated the capacity of various ion beams available for radiotherapy to produ...
We report low-energy proton and alpha particle SEE data on a 32 nm silicon-on-insulator (SOI) comple...
In the wake of the closure of the Indiana University Cyclotron Facility (IUCF), this presentation pr...
This study focuses on the ion species and energy dependence of the heavy ion SEE cross section in th...
Galactic cosmic rays (GCR) originating from outside the solar system create a unique radiation envir...
The Heavy Ions In Space (HIIS) experiment has two primary objectives: (1) to measure the elemental c...
Protons with sufficiently high energy, provided in a broad field covering on the order of 0.1m2 can ...
The fact that protons cause single-event effects (SEE) in most devices through production of light-i...
Although proton SEE testing can place constraints on some heavy-ion SEE susceptibilities, it is impo...
In 1972, when engineers at Hughes Aircraft Corporation discovered that errors in their satellite avi...
We apply a Monte Carlo based integral rectangular parallel-piped (IRRP) approach to evaluate the imp...
We have examined the effect on device SV geometry on the conclusions that can be drawn from proton S...
The intent of this document is to provide guidance on when and what type of -SEE tests should be per...
We present the results of SEE testing with high energy protons and with low and high energy heavy io...
This paper describes a new approach to analyzing and achieving high radiation tolerance using commer...
In this study, we investigated the capacity of various ion beams available for radiotherapy to produ...
We report low-energy proton and alpha particle SEE data on a 32 nm silicon-on-insulator (SOI) comple...
In the wake of the closure of the Indiana University Cyclotron Facility (IUCF), this presentation pr...
This study focuses on the ion species and energy dependence of the heavy ion SEE cross section in th...
Galactic cosmic rays (GCR) originating from outside the solar system create a unique radiation envir...
The Heavy Ions In Space (HIIS) experiment has two primary objectives: (1) to measure the elemental c...
Protons with sufficiently high energy, provided in a broad field covering on the order of 0.1m2 can ...