research article
X-ray Nanodiffraction on a Single SiGe Quantum Dot inside a Functioning Field-Effect Transistor
Abstract
For advanced electronic, optoelectronic, or mechanical nanoscale devices a detailed understanding of their structural properties and in particular the strain state within their active region is of utmost importance. We demonstrate that X-ray nanodiffraction represents an excellent tool to investigate the internal structure of such devices in a nondestructive way by using a focused synchotron X-ray beam with a diameter of 400 nm. We show results on the strain fields in and around a single SiGe island, which serves as stressor for the Si-channel in a fully functioning Si-metal-oxide semiconductor field-effect transistor- info:eu-repo/semantics/article
- info:eu-repo/semantics/publishedVersion
- info:eu-repo/classification/ddc/540
- Germanium: chemistry
- Nanotechnology
- Particle Size
- Quantum Dots
- Semiconductors
- Silicon: chemistry
- Surface Properties
- Transistors, Electronic
- X-Rays
- Silicon
- Germanium
- J
- X-ray nanodiffraction
- semiconductor nanostructures
- structural investigations
- finite element simulations
- ordered island growth
- silicon germanium
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Last time updated on 16/05/2016
This paper was published in Juelich Shared Electronic Resources.
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