Title :
Electron Irradiation of GaAsP LEDs
Author :
Dimiduk, Kathryn Conway ; Ness, Christian Quarles ; Foley, James Kevin
Author_Institution :
Physics Department Naval Postgraduate School, Monterey, CA 93943
Abstract :
Five different compositions of epitaxial GaAsP and GaP LEDs were irradiated with 30 MeV electrons to fluences of 1014 electrons/cm2. Light output during irradiation and current-voltage characteristics before and after irradiation were measured. Damage coefficients were determined to be 2 × 10-13 cm2/ electron for GaP and approximately 3 × 10-14 cm2/ electron for GaAs1-xPx compositions × = .3 - .9. At 300K partial annealling occurred in seconds. Transmission losses through the LED lens and epoxy cap due to irradiation were measured and found to be insignificant below 1015 electrons/cm2 at 30 MeV. Compared to earlier GaP and GaAsP LEDs measured at lower electron energies, these LEDs were significantly less radiation tolerant. Several possible explanations are suggested.
Keywords :
Current-voltage characteristics; Electron beams; Epitaxial growth; Gallium arsenide; Lenses; Light emitting diodes; Linear particle accelerator; Loss measurement; Monitoring; Propagation losses;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.1985.4334060
