期刊
ACS PHOTONICS
卷 8, 期 5, 页码 1271-1276出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsphotonics.1c00128
关键词
Fano resonance; polariton; strong coupling; coupled oscillators; optical cavity; perovskite
类别
资金
- ERC [852694]
- European Research Council (ERC) [852694] Funding Source: European Research Council (ERC)
The study demonstrates that even a modest numerical aperture can artificially generate Fano resonances and Rabi splittings. These artificial features may obscure the anticrossing of a strongly coupled light-matter system.
Fano resonances and Rabi splittings are routinely reported in the scientific literature. Asymmetric resonance lineshapes are usually associated with Fano resonances, and two split peaks in the spectrum are often attributed to a Rabi splitting. True Fano resonances and Rabi splittings are unequivocal signatures of coherent coupling between subsystems. However, can the same spectral lineshapes characterizing Fano resonances and Rabi splittings arise from a purely incoherent sum of intensities? Here we answer this question through experiments with a tunable Fabry-Perot cavity containing a CsPbBr3 perovskite crystal. By measuring the transmission and photoluminescence of this system using microscope objectives with different numerical aperture (NA), we find that even a modest NA = 0.4 can artificially generate Fano resonances and Rabi splittings. We furthermore show that this modest NA can obscure the anticrossing of a bona fide strongly coupled light-matter system. Through transfer matrix calculations we confirm that these spectral artifacts are due to the incoherent sum of transmitted intensities at different angles captured by the NA. Our results are relevant to the wide nanophotonics community, characterizing dispersive optical systems with high numerical aperture microscope objectives. We conclude with general guidelines to avoid pitfalls in the characterization of such optical systems.
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