Spatial complexity due to strong correlations in vanadium dioxide
Abstract
Near-field scanning infrared microscopy on the Mott metal-insulator system vanadium dioxide (VO2) has revealed complex nanoscale pattern formation in the form of insulating and metallic puddles near the insulator-to-metal transition. We use and extend recently developed cluster techniques in order to understand the fundamental physics driving this multiscale pattern formation. We map the observed metallic and insulating clusters to Ising variables by a rigorous choice of threshold amplitude, and quantify the statistics of the sizes and shapes of the geometric clusters. These in turn yield critical exponents including the cluster size distribution exponent τ, and the fractal dimensions associated with the cluster formation. These quantitative measures show power-law behavior over multiple decades, revealing a delicate interplay between interactions and disorder in the material. The cluster techniques employed here can be readily applied to 2D image data in the context of other materials and measurement techniques.
- Publication:
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APS March Meeting Abstracts
- Pub Date:
- March 2013
- Bibcode:
- 2013APS..MARB19014L