Grupos de investigación - Física Atómica y Molecular de Sistemas No Ligados

The CampuS group develops and applies theoretical tools to investigate electron and nuclear dynamics resulting from the interaction of atoms, molecules, clusters and solids with laser pulses, synchrotron radiation and a variety of atomic and molecular projectiles. Therefore, the research covers a wide range of problems and systems, from the simplest ones, as in the case of atoms or molecules interacting with ultrashort laser pulses, to very extended ones, as in the case of molecular layers grown on surfaces. Our aim is to make theoretical predictions that can lead to a better understanding of the dynamics in these systems, in close collaboration with the most prestigious experimental groups, as well as to propose new experimental situations. Our tools comprise both home-made and commercial computational packages that include time-dependent grid, ab initio and density functional theory methods.

Publicaciones más relevantes

1. Accounting for Electronic Coherences Induced by Broadband Pulses by Using Pulse-Independent Trajectories. Joachim Galiana, Stefano M. Cavaletto, Gilbert Grell, Francisco Fernández-Villoria, Alicia Palacios, Jesús González-Vázquez, Fernando Martín. Journal of Chemical Theory and Computation (2026) 2. Defect identification in a single MoTe2 layer via STM tip-induced charging. P. Casado, M. Pisarra, F. Calleja, C. Díaz, F. Martín, A. L. Vázquez de Parga, and M. Garnica. Nanoscale Advances 7 5637 - 5645 (2025). 3. Ultrafast structural reorganization and charge dynamics in a photoionized donoracceptor biphenyl molecule. D. Mocci, J. Reino-González, Y.Wu, J. González-Vázquez, F. Vismarra, F. Fernández-Villoria, J. Urieta-Mora, A. Palacios, P. Recio, J. Cachon, L. Bañares, M. Lucchini, M. Reduzzi, R. Borrego-Varillas, N. Martín, F. Martín, and M. Nisoli. Ultrafast Science 5 0108-1 - 0108-9 (2025) 4. Attosecond photoionization delays in molecules: the role of nuclear motion. A. J. Suñer-Rubio, C. Lemell, R. Y. Bello, J. Burgdorfer, A. Palacios, and F. Martín. Physical Review Research 6 L022066-1 - L022066-6 (2024) 5. Few-femtosecond electron transfer dynamics in photoionized donor-¿-acceptor molecules. F. Vismarra, F. Fernández-Villoria, D. Mocci, J. González-Vázquez, Y. Wu, L. Colaizzi, F. Holzmeier, J. Delgado, J. Santos, L. Bañares, L. Carlini, M. Castrovilli, P. Bolognesi, R. Richter, L. Avaldi, A. Palacios, M. Lucchini, M. Reduzzi, R. Borrego-Varillas, N. Martín, F. Martín, and M. Nisoli. Nature Chemistry 16 2017- 2024 (2024) 6. The influence of final state interactions in attosecond interferometric measurements of Fano resonances. S. Luo, R. Weissenbilder, H. Laurell, R. Y. Bello, C. Marante, M. Ammitzboll, L. Neoricic, A. Ljungdahl, R. J. Squibb, R. Feifel, M. Gisselbrecht, C. L. Arnold, F. Martín, E. Lindroth, L. Argenti, D. Busto, and A. L'Huillier. Physical Review Research 6 043271-1 - 043271- 13 (2024) 7. Open questions in attochemistry. F Calegari, F Martin. Communications Chemistry 6 (1), 184 (2023)

Proyectos más relevantes

1. ACXIOM-CM: Attosecond Control of ultraviolet and X-ray Induced biOlogical damage for potential Medical applications. Proyecto Sinérgico. Consejería de Educación e Investigación de la Comunidad de Madrid. Ref. SYG-2024/TEC-815. Instituto Madrileño de Estudios Avanzados en Nanociencia. Duración: 2026-2028. 2. QU-ATTO: Quantum Information Science and Ultrafast Nonlinear Coherent Control at the ATTOsecond Timescale. The Network has received funding from the European Union¿s Horizon Europe research and Innovation Program under the Marie Sklodowska-Curie grant agreement Nº 101168628. Principal investigator of the Spanish Country: Fernando Martín García and Alicia Palacios Cañas. duration: 48 months (2024-2028). 3. TOMATTO: The Ultimate Time Scale in Organic Molecular Opto-electronics, the Attosecond. Grant reference: ERC-2020-SyG GA951224. PIs: Martin García, Fernando, Nisoli, Mauro, Martín, Nazario. Funded by the European Research Council (ERC), under the European Union¿s Horizon 2020 Research and Innovation Programme (Grant Agreement No 951224). Duration: (2021 ¿2027) 4. MATRIX-CM: Matter in Action with UlTRafast OptIcal and X-ray Lasers. Programas Actividades I+D Tecnologías 2024, Comunidad de Madrid. Ref. TEC-2024/TEC-85. Instituto Madrileño de Estudios Avanzados en Nanociencia. Duration: 2024-2027 5. ESTUDYAMOS: Dinámica de Attosegundos Inducida por Luz XUV y de Rayos X en Átomos y Moléculas en Fase Gas. Duración: 2023¿2026. Grant Reference: PID2022-138288NB-C31, PID2022-138288NB-C32, PID2022-138288NB-C33. PIs: Palacios Cañas, Alicia; Gonzalez Vázquez, Jesús; Diaz Blanco, Cristina; Martín García, Fernando. Funded by MCIN/AEI /10.13039/501100011033/, and by ¿ERDF A way of making Europe¿ 6. AttoChem: Attosecond Chemistry. Grant reference: COST Action CA18222 Action Chair: Martín García, Fernando (Universidad Autónoma de Madrid) Action Vice-Chair: Calegari, Francesca (CFEL, DESY) Supported by COST (European Cooperation in Science and Technology. FUND by the European Union. Duration: 2019¿- 2024