Simon Elliot Wall

Keywords

Condensed matter physics
Quantum and nanoscale materials
Structural dynamics
Light induced phase transitions
X-ray lasers
Synchrotron radiation
Symmetry

Head of the Ultrafast Dynamics of Quantum Materials group

Associate Professor

PhD in Physics

Optically controlling quantum materials.

Quantum materials exhibit fascinating and desirable properties, such as high temperature superconductivity, but are challenging to understand. They are complex systems in which multiple degrees of freedom compete to dictate the material’s properties These interactions both make it difficult to understand what drives the emergence of specific properties, but also opens new routes to control their properties.

Our research group exploits the entire electromagnetic spectrum, from THz radiation up to hard X-rays to manipulate and measure the properties of quantum materials. We are particularly interested in how lights can perturb and induce symmetry changes in quantum materials, and how these can be used to manipulate the properties of quantum materials. We do this with a range of lab-based ultrafast optical methods to track materials on timescale of a few femtoseconds and in addition, we exploit newly emerging X-ray lasers to capture atomic and nanoscopic changes in materials with light.

Recent publications

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Rodriguez-Suné, L., Scalora, M., Johnson, A. S., Cojocaru, C., Akozbek, N., Coppens, Z. J., Perez-Salinas, D., Wall, S. & Trull, J. (2020). Second harmonic generation from an ITO nanolayer: Experiment versus theory. In D. L. Andrews, A. J. Bain, M. Kauranen & J.-M. Nunzi (Eds.), Nanophotonics VIII Article 113451R SPIE - International Society for Optical Engineering. https://doi.org/10.1117/12.2555393

Rodríguez-Suné, L., Scalora, M., Johnson, A. S., Cojocaru, C., Akozbek, N., Coppens, Z. J., Perez-Salinas, D., Wall, S. & Trull, J. (2020). Study of second and third harmonic generation from an indium tin oxide nanolayer: Influence of nonlocal effects and hot electrons. APL Photonics, 5(1), Article 010801. https://doi.org/10.1063/1.5129627

Tanikawa, T., Karabekyan, S., Kovalev, S., Casalbuoni, S., Asgekar, V., Bonetti, S., Wall, S., Laarmann, T., Turchinovich, D., Zalden, P., Kampfrath, T., Fisher, A. S., Stojanovic, N., Gensch, M. & Geloni, G. (2020). Volt-per-Ångstrom terahertz fields from X-ray free-electron lasers. Journal of Synchrotron Radiation, 27, 796-798. https://doi.org/10.1107/S1600577520004245

Buades, B., Leon, I., Di Palo, N., Rivas, D. E., Sidiropolous, T. P. H., Severino, S., Reduzzi, M., Cousin, S. L., Hemmer, M., Cocchi, C., Pellegrin, E., Martin, J. H., Manas-Valero, S., Coronado, E., Danz, T., Draxl, C., Uemoto, M., Yabana, K., Schultze, M. ... Biegert, J. (2019). Attosecond soft-X-ray spectroscopy in a transition metal dichalcogenide. In 2019 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC) IEEE. https://doi.org/10.1109/CLEOE-EQEC.2019.8872837

Ramos-Alvarez, A., Fleischmann, N., Vidas, L., Fernandez-Rodriguez, A., Palau, A. & Wall, S. (2019). Probing the lattice anharmonicity of superconducting YBa₂Cu₃ O_7-δ via phonon harmonics. Physical Review B, 100(18), Article 184302. https://doi.org/10.1103/PhysRevB.100.184302

Displaying results 26 to 30 out of 34

Revised 08.12.2025

Lise Refstrup Linnebjerg Pedersen