Room-temperature 1.54 μm photoluminescence of Er:Ox centers at extremely low concentration in silicon

Abstract

The demand for single photon sources at λ~=~1.54~μm, which follows from the consistent development of quantum networks based on commercial optical fibers, makes Er:Ox centers in Si still a viable resource thanks to the optical transition of Er3+~:~4I13/2~→~4I15/2. Yet, to date, the implementation of such system remains hindered by its extremely low emission rate. In this Letter, we explore the room-temperature photoluminescence (PL) at the telecomm wavelength of very low implantation doses of Er:Ox in Si. The emitted photons, excited by a λ~=~792~nm laser in both large areas and confined dots of diameter down to 5~μm, are collected by an inverted confocal microscope. The lower-bound number of detectable emission centers within our diffraction-limited illumination spot is estimated to be down to about 104, corresponding to an emission rate per individual ion of about 4~×~103 photons/s.