摘要
We investigate quantum well intermixing of a double-quantum-well structure caused by phosphorus ion implantation by means of photoluminescence (PL). The ion implantation is performed at the energy of 120keV with the dose ranging from 1 × 10^11 to 1 × 10^14/cm^2. The rapid thermal annealing is performed at the temperature of 700℃ for 30s under pure nitrogen protection. The PL measurement shows that the band gap blueshift is influenced by the depth of ion implantation. The blueshift of the upper well which is closer to the implanted wcancies is enhanced with the ion dose faster than that from a lower well under the lower dose implantation (〈 5 × 10^11/cm^2). When the ion dose is over 10^12/cm^2, the band gap blueshift from both the wells increases with the ion dose and finally the two peaks combine together as one peak, indicating that the ion implantation results in a total intermixing of both the quantum wells.
We investigate quantum well intermixing of a double-quantum-well structure caused by phosphorus ion implantation by means of photoluminescence (PL). The ion implantation is performed at the energy of 120keV with the dose ranging from 1 × 10^11 to 1 × 10^14/cm^2. The rapid thermal annealing is performed at the temperature of 700℃ for 30s under pure nitrogen protection. The PL measurement shows that the band gap blueshift is influenced by the depth of ion implantation. The blueshift of the upper well which is closer to the implanted wcancies is enhanced with the ion dose faster than that from a lower well under the lower dose implantation (〈 5 × 10^11/cm^2). When the ion dose is over 10^12/cm^2, the band gap blueshift from both the wells increases with the ion dose and finally the two peaks combine together as one peak, indicating that the ion implantation results in a total intermixing of both the quantum wells.
基金
Supported by the National Natural Science Foundation of China under Grant No 60276013, and the Fund of Key Laboratory for Radiation Beam and Materials Modification, Beijing Normal University.
