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Type of Document Dissertation Author Nie, Shouhua URN etd-07142008-205053 Title Ultrafast Structural Dynamics In Metals Degree Doctor of Philosophy Department Physics, Department of Advisory Committee
Advisor Name Title Jianming Cao Committee Chair Mark A. Riley Committee Member Nicholas Bonesteel Committee Member Peng Xiong Committee Member Sanford safron Committee Member Keywords
- Coherent Phonon
- Ultrafast Demagnetization
- Femtosecond Electron Diffraction
- Electronic Thermal Expansion
Date of Defense 2008-06-12 Availability unrestricted Abstract Direct observation and understanding of atomic-level structural dynamics are importantfrontiers in scientific research and applications. Femtosecond electron diffraction (FED), a
technique that combines time-resolved pump-probe and electron diffraction concepts, holds a
great promise to reveal the dynamical processes of ultrafast phenomena in biology, chemistry
and solid-state physics at the atomic time and length scales.
This thesis presents the development of a tabletop femtosecond electron diffractometer
and its applications to study the ultrafast structural dynamics of thin metal films. Using
a delicate instrument design and careful experimental configuration, sub-picosecond
temporal and sub-milli-°angstršom spatial resolutions are maintained simultaneously in the
diffractometer. Using this diffractometer, we have studied the dynamics of coherent and
random thermal lattice motions initiated by femtosecond laser pulses in ultrathin metal films,
and particularly, the mechanism of coherent acoustic phonon generation. We also introduce
a new approach to measure the electronic Gršuneisen parameter in metals using FED at
and above room temperature. Finally, we study the ultrafast demagnetization process in
ferromagnetic transition metal Ni by monitoring the transient lattice dynamics with FED.
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