Issue 16, 2024

Coherent X-ray imaging of stochastic dynamics

Abstract

Condensed phase systems often exhibit a mixture of deterministic and stochastic dynamics at the nanoscale which are essential to understanding their function, but can be challenging to study directly using conventional imaging methods. Coherent X-ray imaging has emerged as a powerful tool for studying both nanoscale stuctures and dynamics in condensed phase systems, including stochastic dynamics, but the requirement to obtain single-shot images in order to obtain freeze-frame images of the stochastic dynamics means the X-ray fluxes used must be very high, potentially destroying the samples. This prevents coherent imaging from being applied to complex systems like tracking the motion of charge carriers or domain fluctuations in quantum materials. Here we show that, by leveraging the coherence intrinsic to these methods, we can separate out the stochastic and deterministic contributions to a coherent X-ray scattering pattern, returning real space images of the deterministic contributions and the momentum spectrum of the stochastic contributions. We further show that, for several typical and important classes of fluctuations, we can return real space images of the mean fluctuations. We demonstrate this approach by numerically simulating the imaging of stochastic polaron seperation following photoexcitation and by recovering the spectral properties of fluctuating domain walls. Our versatile approach will enable the direct recovery of the spatial, spectral and temporal properties of stochastic material dynamics in a wide variety of systems currently unobtainable with existing methods.

Graphical abstract: Coherent X-ray imaging of stochastic dynamics

Article information

Article type
Paper
Submitted
16 Febr. 2024
Accepted
24 Jūn. 2024
First published
25 Jūn. 2024
This article is Open Access
Creative Commons BY license

Mater. Adv., 2024,5, 6378-6387

Coherent X-ray imaging of stochastic dynamics

A. Sarkar and A. S. Johnson, Mater. Adv., 2024, 5, 6378 DOI: 10.1039/D4MA00154K

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