Semiconductor Physics, Quantum Electronics & Optoelectronics (Jul 2018)

Self-organization in irradiated semiconductor crystals caused by thermal annealing

  • M. Zavada,
  • O. Konoreva,
  • P. Lytovchenko,
  • V. Opilat,
  • M. Pinkovska,
  • O. Radkevych,
  • V. Tartachnyk

DOI
https://doi.org/10.15407/spqeo21.02.130
Journal volume & issue
Vol. 21, no. 2
pp. 130 – 133

Abstract

Read online

Annealing of complex semiconductors GaP and CdP 2 , irradiated at room temperature by high fluences of electrons within 1…30 MeV energy interval and 80 MeV α -particles, was carried out and main electrical parameters (conductivity σ, carrier concentration n and mobility µ) as well as the positron life-time τ were studied and analyzed. When the point defect concentration excesses some critical value, defects of new kind are formed: oscillation peaks in the isochronous annealing curve appear, and defects with a high cross-section of defect scattering and capture are created. High temperature annealing of the irradiated sample with increased vacancy concentration causes appearance of the vacancy voids with a lower electron density.

Keywords