Method of fabricating highly lattice mismatched quantum well structures
First Claim
1. A semiconductor heterostructure, comprising:
- a host substrate;
a buffer layer of uniformly compositioned semiconducting material grown on said substrate wherein said layer is lattice-mismatched relative to said substrate;
a strained superlattice structure grown on said buffer layer wherein said host substrate, said buffer layer, and said superlattice structure together form an effective substrate;
an unstrained barrier layer grown on said superlattice structure; and
a quantum well structure serving as an active region and grown on said barrier layer;
wherein said uniformly compositioned buffer layer has a thickness greater than a critical thickness such that stress due to a lattice constant mismatch between said quantum well structure and said host substrate is accommodated by the formation of dislocations in said uniformly compositioned buffer layer.
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Abstract
A method of fabricating a semiconductor heterostructure includes the growth of a quantum well active region that is highly lattice-mismatched relative to a substrate. A buffer layer having a thickness above a critical value is grown on the substrate whereby the stress due to a lattice constant mismatch between the buffer layer and substrate is relieved through the formation of misfit dislocations. A strained superlattice structure is grown on the buffer layer in order to terminate any upwardly-propagating dislocations. An unstrained barrier layer is subsequently grown on the superlattice structure. The fabrication method concludes with the growth of a quantum well structure on the unstrained layer wherein a lattice constant mismatch between the quantum well structure and the unstrained barrier layer is smaller than the lattice constant mismatch between the quantum well structure and the substrate. As a result, only a fraction of the stress due to the large lattice mismatch between the quantum well structure and the substrate is accommodated by coherent strain in the quantum well structure, while the remainder of the stress is relieved through the formation of misfit dislocations spatially separated from the quantum well structure.
16 Citations
6 Claims
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1. A semiconductor heterostructure, comprising:
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a host substrate; a buffer layer of uniformly compositioned semiconducting material grown on said substrate wherein said layer is lattice-mismatched relative to said substrate; a strained superlattice structure grown on said buffer layer wherein said host substrate, said buffer layer, and said superlattice structure together form an effective substrate; an unstrained barrier layer grown on said superlattice structure; and a quantum well structure serving as an active region and grown on said barrier layer; wherein said uniformly compositioned buffer layer has a thickness greater than a critical thickness such that stress due to a lattice constant mismatch between said quantum well structure and said host substrate is accommodated by the formation of dislocations in said uniformly compositioned buffer layer. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification