Authors
T Henighan, M Trigo, Stefano Bonetti, P Granitzka, D Higley, Z Chen, MP Jiang, R Kukreja, A Gray, AH Reid, E Jal, Matthias C Hoffmann, M Kozina, S Song, M Chollet, D Zhu, PF Xu, Jaewoo Jeong, Karel Carva, Pablo Maldonado, Peter M Oppeneer, Mahesh G Samant, Stuart SP Parkin, DA Reis, Hermann A Dürr
Publication date
2016/6/1
Journal
Physical Review B
Volume
93
Issue
22
Pages
220301
Publisher
American Physical Society
Description
We use femtosecond time-resolved hard x-ray scattering to detect coherent acoustic phonons generated during ultrafast laser excitation of ferromagnetic bcc Fe films grown on MgO(001). We observe the coherent longitudinal-acoustic phonons as a function of wave vector through analysis of the temporal oscillations in the x-ray scattering signal. The width of the extracted strain wave front associated with this coherent motion is fs. An effective electronic Grüneisen parameter is extracted within a two-temperature model. However, ab initio calculations show that the phonons are nonthermal on the time scale of the experiment, which calls into question the validity of extracting physical constants by fitting such a two-temperature model.
Scholar articles
T Henighan, M Trigo, S Bonetti, P Granitzka, D Higley… - Physical Review B, 2016