Ultrafast Electron Diffraction in Charge Density Wave State of TiSe<sub>2</sub>
ORAL
Abstract
We probe the ultrafast laser response in thin TiSe2 single crystals below and above the CDW transition temperature using ultrafast electron diffraction. The electron-phonon dynamics is initiated by a 150-fs photon pulse centered at 400 nm that induces a strain pulse and inter-layer
coherent acoustic breathing mode phonons. While we observe a fast (~1.5 ps) initial diffraction intensity decay at room temperature indicative of strong electron-phonon coupling, we do not observe any bi-exponential dynamics. In the CDW phase there exists a threshold fluence that causes change in the relaxation dynamics. We associate this threshold with electronic melting of CDW order. The ultrafast electron diffraction dynamics results on CuxTiSe2 single crystals will be presented as well.
coherent acoustic breathing mode phonons. While we observe a fast (~1.5 ps) initial diffraction intensity decay at room temperature indicative of strong electron-phonon coupling, we do not observe any bi-exponential dynamics. In the CDW phase there exists a threshold fluence that causes change in the relaxation dynamics. We associate this threshold with electronic melting of CDW order. The ultrafast electron diffraction dynamics results on CuxTiSe2 single crystals will be presented as well.
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Presenters
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Paul Xhori
Physics, Drexel University
Authors
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Paul Xhori
Physics, Drexel University
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Anton Andreevich Anikin
Physics, Drexel University
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Jacob Bolduc
Materials Science and Engineering, Drexel University
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Shalin Patel
Physics, Drexel University
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Maher Harb
Physics and Materials Science and Engineering, Drexel University
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Goran Karapetrov
Physics and Materials Science and Engineering, Drexel University, Physics, Drexel University, Department of Physics, Drexel University