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Direct imaging of 3D atomic-scale dopant-defect clustering processes in ion-implanted silicon

 
: Koelling, S.; Richard, O.; Bender, H.; Uematsu, M.; Schulze, A.; Zschaetzsch, G.; Gilbert, M.; Vandervorst, W.

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Nano Letters 13 (2013), No.6, pp.2458-2462
ISSN: 1530-6984
ISSN: 1530-6992
English
Journal Article
Fraunhofer IPMS ()

Abstract
The fabrication of nanoscale semiconductor devices for use in future electronics, energy, and health is among others based on the precise placement of dopant atoms into the crystal lattice of semiconductors and their concurrent or subsequent electrical activation. Dopants are built into the lattice by fabrication processes like ion implantation, plasma-based doping, and thermal annealing. Throughout the fabrication processes fundamental phenomena like dopant diffusion, activation, and clustering occur concurrently with damaging and subsequently recovering the crystal lattice. These processes are described by atomic-scale mechanisms of ion-host atom interaction and have an immense impact on the electrical performance of the resulting devices. Insight in their fundamental nature is of utmost importance for optimizing the performance of nanoscale technologies. In this paper, we demonstrate direct three-dimensional imaging of boron clusters and atoms in crystal defects using field ion microscopy. Our approach allows for the first time the complete characterization of the size and crystallographic orientation of boron-decorated crystal defects. This new method opens a path to image a wide variety of dopant-cluster forms and hence to study the formation and dissolution of boron clusters in silicon on the atomic scale.

: http://publica.fraunhofer.de/documents/N-264629.html