Dichography: Two-frame Ultrafast Imaging from a Single Diffraction Pattern
Abstract
We experimentally demonstrate that pairs of time-delayed ultrabright and ultrashort X-ray pulses of two different colors, delivered by modern X-ray Free Electron Lasers, can provide two time-delayed snapshots of a sample. We introduce Dichography, a method that algorithmically separates the diffraction signals overlapping on the detector and independently retrieves the two images of the specimen. We employ Dichography to reconstruct two views of individual xenon-doped helium nanodroplets with 20 nm spatial resolution. The consistency of structures observed in both images at delays up to 750 fs provides evidence that, under these illumination conditions, significant structural damage only occurs at longer timescales. We further validate the method by imaging pairs of silver nanoparticles intercepted by the same light pulse. Dichography enables a new class of experiments across physics, chemistry, and materials science, making a significant step toward the original promise of X-ray free-electron lasers to capture ultrafast movies of nanomatter.
Cite
@article{arxiv.2508.20153,
title = {Dichography: Two-frame Ultrafast Imaging from a Single Diffraction Pattern},
author = {Linos Hecht and Andre Al Haddad and Björn Bastian and Thomas M. Baumann and Johan Bielecki and Christoph Bostedt and Subhendu De and Alberto De Fanis and Simon Dold and Thomas Fennel and Fanny Goy and Christina Graf and Robert Hartmann and Georg Jakobs and Maximilian Joschko and Gregor Knopp and Katharina Kolatzki and Sivarama Krishnan and Björn Kruse and Asbjørn Ø. Lægdsmand and Bruno Langbehn and Suddhasattwa Mandal and Tommaso Mazza and Michael Meyer and Christian Peltz and Thomas Pfeifer and Safi Rafie-Zinedine and Antoine Sarracini and Mario Sauppe and Florian Schenk and Kirsten Schnorr and Björn Senfftleben and Keshav Sishodia and Frank Stienkemeier and Zhibin Sun and Rico Mayro P. Tanyag and Paul Tümmler and Sergey Usenko and Carl Frederic Ussling and Vanessa Wood and Xinhua Xie and Maksym Yarema and Olesya Yarema and Nuri Yazdani and Hankai Zhang and Bernd von Issendorff and Yevheniy Ovcharenko and Marcel Mudrich and Daniela Rupp and Alessandro Colombo},
journal= {arXiv preprint arXiv:2508.20153},
year = {2026}
}
Comments
21 pages, 7 figures. Supplemental Material in ancillary files. Improved theoretical framework. Improved experimental results