Linear optical elements based on cooperative subwavelength emitter arrays
Baßler N, Reitz M, Schmidt KP, Genes C (2023)
Publication Type: Journal article
Publication year: 2023
Journal
Book Volume: 31
Pages Range: 6003-6026
Journal Issue: 4
DOI: 10.1364/OE.476830
Abstract
We describe applications of two-dimensional subwavelength quantum emitter arrays as efficient optical elements in the linear regime. For normally incident light, the cooperative optical response, stemming from emitter-emitter dipole exchanges, allows the control of the array's transmission, its resonance frequency, and bandwidth. Operations on fully polarized incident light, such as generic linear and circular polarizers as well as phase retarders can be engineered and described in terms of Jones matrices. Our analytical approach and accompanying numerical simulations identify optimal regimes for such operations and reveal the importance of adjusting the array geometry and of the careful tuning of the external magnetic fields amplitude and direction.
Authors with CRIS profile
Additional Organisation(s)
Sonderforschungsbereich/Transregio 306/1: Quantenkooperativität von Licht und Materie - QuCoLiMa
FAU Profilzentrum Licht.Materie.Quantentechnologien (FAU LMQ)
Related research project(s)
Cooperative effects in coupled quantum emitter systems (D01)
TRR 306: Quantenkooperativität von Licht und Materie – QuCoLiMa
Jan. 1, 2021 - Dec. 31, 2024
Competing interactions in strongly correlated light-matter assemblies (D03)
TRR 306: Quantenkooperativität von Licht und Materie – QuCoLiMa
Jan. 1, 2021 - Dec. 31, 2024
Involved external institutions
Germany (DE)How to cite
APA:
Baßler, N., Reitz, M., Schmidt, K.P., & Genes, C. (2023). Linear optical elements based on cooperative subwavelength emitter arrays. Optics Express, 31(4), 6003-6026. https://dx.doi.org/10.1364/OE.476830
MLA:
Baßler, Nico, et al. "Linear optical elements based on cooperative subwavelength emitter arrays." Optics Express 31.4 (2023): 6003-6026.
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