| Title: |
Structural pathways for ultrafast melting of optically excited thin polycrystalline Palladium films |
| Authors: |
Antonowicz, Jerzy, Olczak, Adam, Sokolowski-Tinten, Klaus, Zalden, Peter, Milov, Igor, Dzięgielewski, Przemysław, Bressler, Christian, Chapman, Henry N., Chojnacki, Michał, Dłużewski, Piotr, Rodriguez-Fernandez, Angel, Fronc, Krzysztof, Gawełda, Wojciech, Georgarakis, Konstantinos, Greer, Alan L., Jacyna, Iwanna, van de Kruijs, Robbert W. E., Kamiński, Radosław, Khakhulin, Dmitry, Klinger, Dorota, Kosyl, Katarzyna M., Kubicek, Katharina, Migdal, Kirill P., Minikayev, Roman, Panagiotopoulos, Nikolaos T., Sikora, Marcin, Sun, Peihao, Yousef, Hazem, Zajkowska, Wiktoria, Zhakhovski, Vasily V., Sobierajski, Ryszard |
| Publication Year: |
2023 |
| Collection: |
Condensed Matter |
| Subject Terms: |
Condensed Matter - Materials Science |
| More Details: |
Due to its extremely short timescale, the non-equilibrium melting of metals is exceptionally difficult to probe experimentally. The knowledge of melting mechanisms is thus based mainly on the results of theoretical predictions. This work reports on the investigation of ultrafast melting of thin polycrystalline Pd films studied by optical laser pump - X-ray free-electron laser probe experiments and molecular-dynamics simulations. By acquiring X-ray diffraction snapshots with sub-picosecond resolution, we capture the sample's atomic structure during its transition from the crystalline to the liquid state. Bridging the timescales of experiments and simulations allows us to formulate a realistic microscopic picture of melting. We demonstrate that the existing models of strongly non-equilibrium melting, developed for systems with relatively weak electron-phonon coupling, remain valid even for ultrafast heating rates achieved in femtosecond laser-excited Pd. Furthermore, we highlight the role of pre-existing and transiently generated crystal defects in the transition to the liquid state.
Comment: main manuscript 33 pages, 9 figures; supplemental material 19 pages, 13 figures - all in one file |
| Document Type: |
Working Paper |
| Access URL: |
http://arxiv.org/abs/2309.10747 |
| Accession Number: |
edsarx.2309.10747 |
| Database: |
arXiv |
