Title :
Radiation-induced charge collection in infrared detector arrays
Author :
Pickel, J.C. ; Reed, Robert A. ; Ladbury, R. ; Rauscher, B. ; Marshall, Paul W. ; Jordan, Tom M. ; Fodness, B. ; Gee, G.
Author_Institution :
PR&T Inc., Fallbrook, CA, USA
fDate :
12/1/2002 12:00:00 AM
Abstract :
A modeling approach is described for predicting charge collection in space-based infrared detector arrays due to ionizing particle radiation. The modeling uses a combination of analytical and Monte Carlo techniques to capture the essential features of energetic ion-induced charge collection to detector pixels in a two-dimensional array. The model addresses several aspects that are necessary for high-fidelity simulation of complex focal plane array structures including multiple layers, subregions within layers, variation of linear energy transfer with range, secondary electron scattering, free-field diffusion, and field-assisted diffusion. Example results are given and predictions are compared to experimental data.
Keywords :
Monte Carlo methods; cosmic ray interactions; focal planes; infrared astronomy; infrared detectors; 2D array; Monte Carlo techniques; cosmic rays; energetic ion-induced charge collection; field-assisted diffusion; focal plane array structures; free-field diffusion; high-fidelity simulation; infrared detector arrays; infrared radiation effects; ion radiation effects; ionizing particle radiation; linear energy transfer; modeling approach; photodetectors; radiation-induced charge collection; secondary electron scattering; subregions; Electrons; Energy exchange; Infrared detectors; Integrated circuit noise; NASA; Noise level; Predictive models; Sensor arrays; Space technology; Working environment noise;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2002.805382
