Time-resolved plasmon-assisted generation of optical-vortex pulses

Albar, E. I.; Bonafé, F.; Kosheleva, V.; Ohlmann, S. T.; Appel, H.; Rubio, A.

doi:10.1038/s41598-023-41606-3

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Time-resolved plasmon-assisted generation of optical-vortex pulses

Albar, E. I., Bonafé, F., Kosheleva, V., Ohlmann, S. T., Appel, H., & Rubio, A. (2023). Time-resolved plasmon-assisted generation of optical-vortex pulses. Scientific Reports, 13(1): 14748. doi:10.1038/s41598-023-41606-3.

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Item Permalink: https://hdl.handle.net/21.11116/0000-000D-ADC5-2 Version Permalink: https://hdl.handle.net/21.11116/0000-000D-ADC6-1

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Creators:
Albar, E. I.¹, Author
Bonafé, F.¹, Author
Kosheleva, V.¹, Author
Ohlmann, S. T.², Author
Appel, H.¹, Author
Rubio, A.^{1, 3, 4}, Author

Affiliations:
1Theory Group, Theory Department, Max Planck Institute for the Structure and Dynamics of Matter, Max Planck Society, ou_2266715
2Max Planck Computing and Data Facility, ou_persistent22
3Center for Computational Quantum Physics (CCQ), The Flatiron Institute, ou_persistent22
4Nano-Bio Spectroscopy Group, Departamento de Física de Materiales, Universidad del País Vasco, ou_persistent22

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Abstract: The microscopic mechanism of the light-matter interactions that induce orbital angular momentum (OAM) in electromagnetic fields is not thoroughly understood. In this work, we employ Archimedean spiral vortex generators in time-resolved numerical simulations using the Octopus code to observe the behind-the-scenes of OAM generation. We send a perfect circularly-polarized plane-wave light onto plasmonic optical vortex generators and observe the resulting twisted light formation with complete spatio-temporal information. In agreement with previous works, we find that emission from the plasmonic spiral branches shapes the vortex-like structure and governs the OAM generation in the outgoing electromagnetic field. To characterize the generated beam further, we emulate the emission from vortex generators with current emitters preserving the spiral geometry. We subject a point-particle system to the generated field and record the orbital angular momentum transfer between the electromagnetic field and the point particle. Finally, we probe the OAM density locally by studying the induced classical trajectory of point particles, which provides further insight into the spatio-temporal features of the induced OAM.

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Language(s): eng - English

Dates: Submitted: 2023-05-23Accepted: 2023-08-28Published Online: 2023-09-07

Publication Status: Published online

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Rev. Type: Peer

Identifiers: DOI: 10.1038/s41598-023-41606-3

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Grant ID : 895747

Funding program : Horizon 2020 (H2020)

Funding organization : European Commission (EC)

Project name : This work was supported by the European Research Council (ERC-2015-AdG694097), the Cluster of Excellence ‘Advanced Imaging of Matter’ (AIM), Grupos Consolidados (IT1453-22) and Deutsche Forschungsgemeinschaft (DFG) - SFB-925 - project 170620586. The Flatiron Institute is a division of the Simons Foundation. We acknowledge support from the Max Planck-New York City Center for Non-Equilibrium Quantum Phenomena. E.I.A. acknowledges support from International Max Planck Research School. F.P.B. acknowledges financial support from the European Union’s Horizon 2020 research and innovation program under the Marie Sklodowska-Curie Grant Agreement no. 895747 (NanoLightQD). The authors also would like to acknowledge the computational support provided by Max Planck Computing and Data Facility. We are grateful for the help of the Octopus Developers team, and we thank Michael Ruggenthaler, Johanna Fuks, and Guillermo Quinteiro for valuable discussions.

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Title: Scientific Reports

Abbreviation : Sci. Rep.

Source Genre: Journal

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Publ. Info: London, UK : Nature Publishing Group

Pages: - Volume / Issue: 13 (1) Sequence Number: 14748 Start / End Page: - Identifier: ISSN: 2045-2322
CoNE: https://pure.mpg.de/cone/journals/resource/2045-2322