Journal article
Theory for the ultrafast structural response of optically excited small clusters: Time dependence of the ionization potential
Publication Details
Authors: | Jeschke, H.; Garcia, M.; Bennemann, K. |
Publisher: | AMERICAN PHYSICAL SOC |
Publication year: | 1996 |
Pages range : | R4601-R4604 |
Volume number: | 54 |
Start page: | R4601 |
End page: | R4604 |
Number of pages: | 4 |
ISSN: | 2469-9926 |
eISSN: | 2469-9934 |
Abstract
Combining an electronic theory with molecular-dynamics simulations we present results for the ultrafast structural changes in small clusters. We determine the time scale for the change from the linear to a triangular structure after the photodetachment process Ag-3(-) --> Ag-3. We show that the time-dependent change of the ionization potential reflects in detail the internal degrees of freedom, in particular coherent and incoherent motion, and that it is sensitive to the initial temperature. We compare with experiment and point out the general significance of our results.
Combining an electronic theory with molecular-dynamics simulations we present results for the ultrafast structural changes in small clusters. We determine the time scale for the change from the linear to a triangular structure after the photodetachment process Ag-3(-) --> Ag-3. We show that the time-dependent change of the ionization potential reflects in detail the internal degrees of freedom, in particular coherent and incoherent motion, and that it is sensitive to the initial temperature. We compare with experiment and point out the general significance of our results.
