Time-resolved x-ray diffraction of alloy formation in a AuPt multilayer film.

Matthew DeCamp; Aaron Loether; Jie Ren; Anthony DiChiara; Karl Unruh

Time-resolved x-ray diffraction of alloy formation in a AuPt multilayer film.

ORAL

Abstract

Revealing atomic scale motion at picosecond timescales can reveal important features of the energy landscape that dictates structure. In this work, sub-nanosecond time-resolved x-ray diffraction measurements of metallic alloy formation following sub-picosecond optical photoexcitation is presented. Under thses condtions, a Au-Pt multilayer film loses structural coherence in less than 100ps followed by the rapid growth of a new polycrystalline AuPt alloy within 1μs. Comparisons to diffusional mixing models reveals a growth rate four orders of magnitude larger than previous results would suggest.

^*This work was supported by the NSF under Grant No. DMR1410076.

March 9, 2018, 10:36 AM – March 9, 2018, 10:48 AM

Presenters

Matthew DeCamp
- Univ of Delaware
- Physics and Astronomy, Univ of Delaware

Authors

Matthew DeCamp
- Univ of Delaware
- Physics and Astronomy, Univ of Delaware
Aaron Loether
- Univ of Delaware
Jie Ren
- Univ of Delaware
- Chemistry and Biochemistry, Univ of Delaware
- Chemistry and Biochemistry, University of Delaware
Anthony DiChiara
- Argonne National Lab
- X-ray Science Division, Argonne Natl Lab
- Argonne National Laboratory
- agronne national lab
- Argonne Natl Lab
Karl Unruh
- Univ of Delaware
- Physics and Astronomy, Univ of Delaware
- Physics and Astronomy, University of Delaware