Attosecond core-level spectroscopy reveals the flow of excitation in a material 
between light, carriers and phonons

Sidiropoulos, T.P.H.; Palo, N. Di; Rivas, D.E.; Severino, S.; Reduzzi, M.; Nandy, B.; Bauerhenne, B.; Krylow, S.; Vasileiadis, Thomas; Danz, T.; Elliott, P.; Sharma, S.; Dewhurst, K.; Ropers, C.; Joly, Y.; Garcia, K. M. E.; Wolf, Martin; Ernstorfer, Ralph; Biegert, J.

doi:10.1364/CLEO_QELS.2022.FM4N.5

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Attosecond core-level spectroscopy reveals the flow of excitation in a material between light, carriers and phonons

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Vasileiadis, Thomas
Physical Chemistry, Fritz Haber Institute, Max Planck Society;

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Wolf, Martin
Physical Chemistry, Fritz Haber Institute, Max Planck Society;

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Ernstorfer, Ralph
Physical Chemistry, Fritz Haber Institute, Max Planck Society;

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Citation

Sidiropoulos, T., Palo, N. D., Rivas, D., Severino, S., Reduzzi, M., Nandy, B., et al. (2022). Attosecond core-level spectroscopy reveals the flow of excitation in a material between light, carriers and phonons. In Optics InfoBase Conference Papers. doi:10.1364/CLEO_QELS.2022.FM4N.5.

Cite as: https://hdl.handle.net/21.11116/0000-000B-1D58-3

Abstract

We use attosecond core-level X-ray spectroscopy to disentangle the spectral and dynamical signatures of energy conversion pathways between photons, charge carriers and the lattice in graphite with attosecond precision and across a picosecond range.