Oxygen '96

Early Stages of Oxygen Precipitation in Silicon

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COMPLEXES OF OXYGEN AND GROUP II IMPURITIES IN SILICON

E. McGlynn (a),M. O. Henry (a), S. E. Daly (a) and K. G.McGuigan (b)

(a) School of Physics Sciences, Dublin City University, Collins Avenue, Dublin 9, IRELAND.
(b) Department of Physics, Royal College of Surgeons, St. Stephens Green, Dublin 2, IRELAND.

Keywords: oxygen, silicon, photoluminescence, group II

A comprehensive photoluminescence (PL) study of both oxygen-rich (CZ) and oxygen-lean (FZ) silicon samples implanted with the group II impurities Be, Zn and Cd shows that oxygen-rich material annealed in the range 450-600 degrees C contains defects not observed in oxygen-lean samples. For Be, one defect dominates the PL spectrum (~1138 meV). In the case of Zn a series of PL lines is observed with relative intensities which are dependent on the annealing treatment (1130, 1100, 1090 and 1050 meV). For Cd, the PL spectrum contains three Cd-related line systems whose relative intensities are also dependent on the annealing treatment (1025, 982 and 935 meV).

Uniaxial stress measurements show that all of these defects are of rhombic I or monoclinic I symmetry, and the stress fitting parameters vary little between the defects. Temperature dependence measurements likewise show broadly similar behaviour and in every case the zero-phonon lines are found to be magnetic singlets.

Isotope substitution experiments, in the case of Zn and Cd, have confirmed the involvements of these elements, and experiments using co-implantation of oxygen isotopes into FZ samples have also been conclusive regarding the involvement of oxygen except for Si:Cd samples.

The weight of the evidence is that the high concentration of oxygen in the CZ material is the determining factor for the creation of these defects. We conclude that this group of defects results from the complexing of oxygen atoms with the implanted group II element. The indications from Zeeman and uniaxial stress measurements are that in each case the PL originates from the recombination of a loosely-bound electron with a hole localised at the defect core.

Last modified: Mon Feb 19 12:11:09 GMT 1996 JG