Physikalisches Kolloquium: Dr. Andrés Ordóñez "Chiral light-matter interaction in the multiphoton regime"
Emmy-Noether-Nachwuchsgruppenleiter an der Freien Universität Berlin
Chiral molecules are ubiquitous in nature — from the building blocks of life such as sugars and amino acids to unidirectional molecular motors. Since left- and right-handed versions of a chiral molecule share the same energy spectrum, their interaction with light differs in subtle ways.
Traditional wisdom attributes these differences to magnetic-dipole interactions, typically manifesting as weak optical activity with left/right differences below 0.1%. However, thanks to femtosecond laser technology, the last decade has seen the emergence of a variety of multiphoton chiral effects exclusively governed by electric-dipole interactions, yielding strong leftright differences exceeding 10%. These phenomena not only challenge conventional paradigms but also open up powerful routes for imaging, controlling, and exploiting chirality in molecular systems.
In this colloquium, I will give an overview of how multiphoton processes can be harnessed to encode molecular chirality in observables such as photoelectron vortices, photoelectron angular distributions, photoinduced orientation, high-harmonic spectra, and photochemical reaction pathways. These advances reveal a rich and rapidly evolving landscape at the intersection of ultrafast dynamics, strong-field physics, and stereochemistry, with direct applications in chemistry and nanotechnology.
Zeit & Ort
20.06.2025 | 15:00 c.t.
Hörsaal A (1.3.14)
Fachbereich Physik
Arnimallee 14
14195 Berlin
Schlagwörter
- Andrés Ordóñez
- Chirale Licht-Materie-Wechselwirkung
- chirale Moleküle
- elektrische Dipol-Wechselwirkungen
- magnetische Dipol-Wechselwirkungen
- Mehrphotonenprozesse
- Nanotechnologie.
- Photoelektronenwirbel
- Physikalisches Kolloquium
- Starkfeldphysik
- Stereochemie
- ultraschnelle Dynamik