Abstract

We have studied the influence of the hydrostatic pressure during annealing on the intensity of the visible photoluminescence (PL) from thermally grown SiO2 films irradiated with Si+ ions using double-energy implants at 100 and 200 keV and ion doses ranging from 1.2×1016 to 6.3×1016 cm−2. Postimplantation anneals have been carried out in an Ar ambient at temperatures Ta of 400 and 450 °C for 10 h at both atmospheric pressure and hydrostatic pressures of 0.1, 10, 12, and 15 kbar. It has been found that the intensity of the ultraviolet (∼360 nm), blue (∼460 nm), and red (∼600 nm) PL emission bands increases with raising hydrostatic pressure whereby the PL peaks retain their wavelength positions. The results obtained have been interpreted in terms of enhanced, pressure-mediated formation of ≡Si–Si≡ centers and small Si clusters within metastable regions of the ion-implanted SiO2.