Profil

Smeets Steve

Université de Mons - UMONS > Faculté des Sciences > Service des Matériaux Micro et Nanophotoniques

ORCID
0000-0002-7716-1852
Main Referenced Co-authors
ROSOLEN, Gilles  (14)
MAES, Bjorn  (13)
Deparis, O. (1)
Lucas, S. (1)
Müller, J. (1)
Main Referenced Keywords
Dipole approximation breakdown (2); Framework (2); Interference (2); Plasmonic nanostructure (2); Two-photon spontaneous emission (2);
Main Referenced Unit & Research Centers
CRPM - Physique des matériaux (2)
Main Referenced Disciplines
Physics (15)

Publications (total 15)

The most downloaded
105 downloads
Smeets, S., Maes, B., & Rosolen, G. (27 June 2023). General framework for two-photon spontaneous emission near plasmonic nanostructures. Physical Review. A, 107 (6), 063516. doi:10.1103/physreva.107.063516 https://hdl.handle.net/20.500.12907/46098

The most cited

6 citations (Scopus®)

Smeets, S., Maes, B., & Rosolen, G. (27 June 2023). General framework for two-photon spontaneous emission near plasmonic nanostructures. Physical Review. A, 107 (6), 063516. doi:10.1103/physreva.107.063516 https://hdl.handle.net/20.500.12907/46098

Smeets, S., Maes, B., & Rosolen, G. (2024). Tailoring two-photon spontaneous emission: Framework and nanoantenna design for interference and directionality. In EPJ Web of Conferences (pp. 08012). Les Ulis, Unknown/unspecified: EDP Sciences. doi:10.1051/epjconf/202430908012
Editorial reviewed

Smeets, S. (2024). Analytical and numerical investigation of the two-photon spontaneous emission process near plasmonic nanostructures [Doctoral thesis, UMONS - Université de Mons]. ORBi UMONS-University of Mons. https://orbi.umons.ac.be/handle/20.500.12907/49822

Smeets, S., Maes, B., & Rosolen, G. (27 September 2024). Interference between multipolar two-photon transitions in quantum emitters near plasmonic nanostructures. Discover Nano, 19 (1), 155. doi:10.1186/s11671-024-04111-8
Peer reviewed

Rassinfosse, L., Müller, J., Deparis, O., Smeets, S., Rosolen, G., & Lucas, S. (28 May 2024). Convergence and accuracy of FDTD modelling for periodic plasmonic systems. Optics Continuum, 3 (6), 844. doi:10.1364/optcon.511183
Peer reviewed

Smeets, S., Maes, B., & Rosolen, G. (26 February 2024). Enhancement and interferences of two-photon emission processes [Paper presentation]. Nanolight 2024.
Editorial reviewed

Smeets, S., Maes, B., & Rosolen, G. (2023). Photonic Modelling of Two-Photon Purcell Effect Near Plasmonic Nanostructures. In Proceedings of Metamaterials 2023. Maria Kafesaki. doi:10.1109/Metamaterials58257.2023.10289352
Peer reviewed

Smeets, S., Maes, B., & Rosolen, G. (27 June 2023). General framework for two-photon spontaneous emission near plasmonic nanostructures. Physical Review. A, 107 (6), 063516. doi:10.1103/physreva.107.063516
Peer Reviewed verified by ORBi

Smeets, S., Maes, B., & Rosolen, G. (17 May 2023). A general framework for two-photon spontaneous emission near plasmonic nanostructures [Paper presentation]. Belgian Physical Society general scientific meeting 2023 Namur, Namur, Belgium.

Smeets, S., Maes, B., & Rosolen, G. (15 March 2023). General framework for two-photon spontaneous emission near plasmonic nanostructures [Poster presentation]. Quantum Nanophotonics, Benasque, Spain.

Smeets, S., Rosolen, G., & Maes, B. (29 September 2022). Photonic modeling of two-photon spontaneous emission processes [Poster presentation]. Belgian Photonics Online Meetup.

Smeets, S., Rosolen, G., & Maes, B. (14 September 2022). Photonic modeling of two-photon spontaneous emission processes [Poster presentation]. Metamaterials'2022, Sienne, Italy.

Smeets, S., Rosolen, G., & Maes, B. (06 September 2022). Photonic modeling of two-photon spontaneous emission processes [Poster presentation]. Mardi des chercheurs, Mons, Belgium.

Smeets, S., Rosolen, G., & Maes, B. (18 May 2022). Photonic modeling of two-photon spontaneous emission processes beyond the electric dipole approximation [Poster presentation]. BPS 2022, Dessel, Belgium.

Smeets, S., Rosolen, G., & Maes, B. (23 September 2021). Photonic modeling of high-order light-matter interactions [Poster presentation]. Belgian Photonics Online Meetup, Virtual, Belgium.

Smeets, S., Rosolen, G., & Maes, B. (12 July 2021). Photonic modeling of high-order light-matter interactions [Poster presentation]. PhD school : Paris-Saclay/Munich on Surface Plasmons, Paris, France.

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