Authors
Jeremy R Rouxel, Danny Fainozzi, Roman Mankowsky, Benedikt Rösner, Gediminas Seniutinas, Riccardo Mincigrucci, Sara Catalini, Laura Foglia, Riccardo Cucini, Florian Döring, Adam Kubec, Frieder Koch, Filippo Bencivenga, Andre Al Haddad, Alessandro Gessini, Alexei A Maznev, Claudio Cirelli, Simon Gerber, Bill Pedrini, Giulia F Mancini, Elia Razzoli, Max Burian, Hiroki Ueda, Georgios Pamfilidis, Eugenio Ferrari, Yunpei Deng, Aldo Mozzanica, Philip JM Johnson, Dmitry Ozerov, Maria Grazia Izzo, Cettina Bottari, Christopher Arrell, Edwin James Divall, Serhane Zerdane, Mathias Sander, Gregor Knopp, Paul Beaud, Henrik T Lemke, Chris J Milne, Christian David, Renato Torre, Majed Chergui, Keith A Nelson, Claudio Masciovecchio, Urs Staub, Luc Patthey, Cristian Svetina
Publication date
2021/7
Journal
Nature Photonics
Volume
15
Issue
7
Pages
499-503
Publisher
Nature Publishing Group UK
Description
Optical-domain transient grating (TG) spectroscopy is a versatile background-free four-wave-mixing technique that is used to probe vibrational, magnetic and electronic degrees of freedom in the time domain. The newly developed coherent X-ray free-electron laser sources allow its extension to the X-ray regime. X-rays offer multiple advantages for TG: their large penetration depth allows probing the bulk properties of materials, their element specificity can address core excited states, and their short wavelengths create excitation gratings with unprecedented momentum transfer and spatial resolution. Here, we demonstrate TG excitation in the hard X-ray range at 7.1 keV. In bismuth germanate (BGO), the non-resonant TG excitation generates coherent optical phonons detected as a function of time by diffraction of an optical probe pulse. This experiment demonstrates the ability to probe bulk properties of materials …
Scholar articles
JR Rouxel, D Fainozzi, R Mankowsky, B Rösner… - Nature Photonics, 2021
JR Rouxel, D Fainozzi, R Mankowsky, B Rösner… - Nature Photonics, 2021