Start Over

Generation mechanism of terahertz coherent acoustic phonons in Fe

Authors :: Michael Kozina
Stefano Bonetti
Karel Carva
Thomas Henighan
Diling Zhu
Pablo Maldonado
Mariano Trigo
Jaewoo Jeong
M. P. Jiang
M. Chollet
Roopali Kukreja
Patrick W. Granitzka
Peter M. Oppeneer
Daniel J. Higley
Sanghoon Song
Mahesh G. Samant
Stuart S. P. Parkin
Matthias C. Hoffmann
Emmanuelle Jal
David A. Reis
Hermann A. Dürr
Alexander X. Gray
Pengfa Xu
Zhao Chen
Alexander H. Reid
Department of Physics and Astronomy [Uppsala]
Uppsala University
Hard Condensed Matter (WZI, IoP, FNWI)
IoP (FNWI)
Quantum Matter and Quantum Information
Other Research IHEF (IoP, FNWI)
Source :: Physical Review B: Condensed Matter and Materials Physics (1998-2015), Physical Review B: Condensed Matter and Materials Physics (1998-2015), American Physical Society, 2016, 93 (22), ⟨10.1103/PhysRevB.93.220301⟩, Physical Review B, 93(22):220301. American Physical Society
Publication Year :: 2016
Publisher :: American Physical Society (APS), 2016.
Abstract: 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 $\ensuremath{\sim}100$ fs. An effective electronic Gr\"uneisen 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.