Visual analysis of charge flow networks for complex morphologies

S. Kottravel, M. Falk, T. Bin Masood, M. Linares, I. Hotz

Research output: Contribution to journalArticlepeer-review

1 Scopus citations

Abstract

In the field of organic electronics, understanding complex material morphologies and their role in efficient charge transport in solar cells is extremely important. Related processes are studied using the Ising model and Kinetic Monte Carlo simulations resulting in large ensembles of stochastic trajectories. Naive visualization of these trajectories, individually or as a whole, does not lead to new knowledge discovery through exploration. In this paper, we present novel visualization and exploration methods to analyze this complex dynamic data, which provide succinct and meaningful abstractions leading to scientific insights. We propose a morphology abstraction yielding a network composed of material pockets and the interfaces, which serves as backbone for the visualization of the charge diffusion. The trajectory network is created using a novel way of implicitly attracting the trajectories to the skeleton of the morphology relying on a relaxation process. Each individual trajectory is then represented as a connected sequence of nodes in the skeleton. The final network summarizes all of these sequences in a single aggregated network. We apply our method to three different morphologies and demonstrate its suitability for exploring this kind of data.
Original languageSpanish (Colombia)
Pages (from-to)479-489
Number of pages11
JournalComputer Graphics Forum
Volume38
Issue number3
DOIs
StatePublished - 2019

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