Using circular dichroism to control energy transfer in multi-photon ionization

Using circular dichroism to control energy transfer in multi-photon ionization

Chirality causes symmetry breaks in a large variety of natural phenomena ranging from particle physics to biochemistry. We investigate one of the simplest conceivable chiral systems, a laser-excited, oriented, effective one-electron Li target. Prepared in a polarized p state with |m|=1 in an optical...

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Veröffentlicht in:arXiv.org 2021-01
Hauptverfasser: A H N C De Silva, Atri-Schuller, D, Dubey, S, Acharya, B P, Romans, K L, Foster, K, Russ, O, Compton, K, Rischbieter, C, Douguet, N, Bartschat, K, Fischer, D
Format: Artikel
Sprache:eng
Schlagworte:
Circular polarization
Coupling (molecular)
Dichroism
Energy transfer
Helicity
Photoelectrons
Physics - Atomic Physics
Polarized radiation
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Zusammenfassung:Chirality causes symmetry breaks in a large variety of natural phenomena ranging from particle physics to biochemistry. We investigate one of the simplest conceivable chiral systems, a laser-excited, oriented, effective one-electron Li target. Prepared in a polarized p state with |m|=1 in an optical trap, the atoms are exposed to co- and counter-rotating circularly polarized femtosecond laser pulses. For a field frequency near the excitation energy of the oriented initial state, a strong circular dichroism is observed and the photoelectron energies are significantly affected by the helicity-dependent Autler-Townes splitting. Besides its fundamental relevance, this system is suited to create spin-polarized electron pulses with a reversible switch on a femtosecond timescale at an energy resolution of a few meV.
ISSN:2331-8422
DOI:10.48550/arxiv.2006.07408