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Dose effects in Si FIB-mixing of short period AlGaAs/GaAs superlattices

Published online by Cambridge University Press:  26 February 2011

A. J. Stecki ,
P. Chen ,
A. Choo ,
H. Jackson ,
J. T. Boyd ,
P. P. Pronko ,
A. Ezis  and
R. M. Kolbas
A. J. Stecki
Affiliation:
University of Cincinnati, Cincinnati, OH
P. Chen
Affiliation:
University of Cincinnati, Cincinnati, OH
A. Choo
Affiliation:
University of Cincinnati, Cincinnati, OH
H. Jackson
Affiliation:
University of Cincinnati, Cincinnati, OH
J. T. Boyd
Affiliation:
University of Cincinnati, Cincinnati, OH
P. P. Pronko
Affiliation:
Universal Energy Systems, Dayton, OH
A. Ezis
Affiliation:
Universal Energy Systems, Dayton, OH
R. M. Kolbas
Affiliation:
North Carolina State University, Raleigh, NC
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Abstract

Results are presented on FIB mixing of an Al0.3Ga0.7As/GaAs superlattice with equal 3.5 nm barrier and well widths. Si++ was accelerated to 100 kV and implanted parallel to sample normal at doses ranging from 1013 to 1015/cm2. The level of inter-layer disordering was measured primarily by Auger depth profiling. The mixing effect of RTA-only increased roughly linearly with annealing time at both 950 and 1000°C, with the latter exhibiting a sharper slope. At either temperature, 90 s was sufficient to produce complete mixing within the accuracy of the measurement. An anneal of 10 s at 950°C, which was utilized in subsequent post-implantation annealing, resulted in ∼ 25% thermally-induced mixing, with a corresponding PL “blue shift” of 6 meV. The level of mixing by an ion dose of 1 × 1014/cm2 yielded a mixing parameter of 0.87, where 1.0 represents complete mixing. This is the lowest ion beam dose necessary for nearly complete mixing reported to date for either FIB or BB implantation. Doubling the dose to 2 × 1014/cm2 results in an increase in mixing by only 0.05 to 0.92. Larger doses produced a diminishing increase in mixing parameter.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 240: Symposium E – Advanced III-V Compound Semiconductor Growth, Processing and Devices , 1991 , 703
Copyright
Copyright © Materials Research Society 1992

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References

REFERENCES

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