Ultrafast All-Optical Light Control with Tamm Plasmons in Photonic Nanostructures

Afinogenov, Boris I.; Bessonov, Vladimir O.; Соболева, И. В.; Fedyanin, Andrey A.

doi:10.1021/acsphotonics.8b01792

Cited by 46 publications

(33 citation statements)

References 45 publications

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“…Indeed, the transient response of such purely photonic structures is well characterized. 78,79 Here, the dominant effect is likely pumpinduced changes to the refractive index of the metallic mirrors, similar to suggestions using TIPSpentacene microcavities. 63 Similar effects can be obtained within organic films, as reported for instance from a PMMA waveguide mode not coupled to any electronic excitations.…”

Section: Resultssupporting

confidence: 75%

“…The parameters considered in this analysis are as follows: 1) reduction in organic dye layer absorption, to replicate the effect of ground-state bleaching; 2) thickness of the organic layer (keeping the total film absorption constant), to capture thermal expansion; and background refractive index changes in 3) the organic polymer matrix and 4) the mirror material (metal or dielectric), in accord with previous transient studies on photonic structures. 78,79 Within this scheme we only calculate steady-state optical properties; our assumption is that any spectral dynamics arise from the mechanism of the underlying effect. For instance, within the twotemperature model of Liu et al, the <10 ps dynamics in microcavity transient reflectivity could be predominantly described by carrier thermalization.…”

Section: Resultsmentioning

confidence: 99%

“…63 Similar dynamics are reported for hot carrier cooling in other photonic structures. 78,79 Ground-state bleaching should roughly follow the dynamics of the bare film, resulting in persistent signatures on the order of nanoseconds. These effects span the sub-ps to ns timescale and could easily be reconciled with our measured dynamics.…”

Section: Resultsmentioning

confidence: 99%

See 2 more Smart Citations

Untargeted effects in organic exciton–polariton transient spectroscopy: A cautionary tale

Renken

Pandya

Georgiou

et al. 2021

The Journal of Chemical Physics

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Strong light-matter coupling to form exciton-and vibropolaritons is increasingly touted as a powerful tool to alter the fundamental properties of organic materials. It is proposed that these states and their facile tunability can be used to rewrite molecular potential energy landscapes and redirect photophysical pathways, with applications from catalysis to electronic devices. Crucial to their photophysical properties is the exchange of energy between coherent, bright polaritons and incoherent dark states. One of the most potent tools to explore this interplay is transient absorption/reflectance spectroscopy. Previous studies have revealed unexpectedly long lifetimes of the coherent polariton states, for which there is no theoretical explanation. Applying these transient methods to a series of strong-coupled organic microcavities, we recover similar long-lived spectral effects. Based on transfer-matrix modelling of the transient experiment, we find that virtually the entire photoresponse results from photoexcitation effects other than the generation of polariton states. Our results suggest that the complex optical properties of polaritonic systems make them especially prone to misleading optical signatures, and that more challenging high-time-resolution measurements on high-quality microcavities are necessary to uniquely distinguish the coherent polariton dynamics.

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Section: Resultssupporting

confidence: 75%

Section: Resultsmentioning

confidence: 99%

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Untargeted effects in organic exciton–polariton transient spectroscopy: A cautionary tale

Renken

Pandya

Georgiou

et al. 2021

The Journal of Chemical Physics

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“…Coupling of TPPs with other resonance modes holds unique Rabi splitting which can be employed to manipulate the resonance wavelength and navigate the design of artificial microconfigurations [5,6] . Thus far, the easily realizable TPPs promise great potential in optical sensors [7,8] , solar cells [9] , plasmonic filter [10] , ultrafast all-optical modulator [11] , and so forth.…”

Section: Introductionmentioning

confidence: 99%

Coupling Mechanism between Tamm Plasmon Polaritons and Monolayer WS2 Embedded in Metal/Dielectric Bragg Reflector Hybrid Architecture

Jia

Yue

et al. 2021

J. Wuhan Univ. Technol.-Mat. Sci. Edit.

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To reveal and utilize the interaction between Tamm plasmon polaritons (TPPs) and twodimensional materials are promising for exploiting next-generation optoelectronic devices. Herein, the coupling mechanism between metal TPPs and monolayer WS 2 along with its differences from that between metal TPPs and graphene was studied in detail by using the transfer matrix method. The experimental results show that it is difficult to excite TPPs at the boundary between monolayer WS 2 and dielectric Bragg reflector (DBR) such that the strong coupling mainly stems from the interaction between metal TPPs and exciton in monolayer WS 2 . However, the coupling in graphene/DBR/metal hybrid structure derives from the interaction between two different TPP resonance modes. Thus, evolutions of Rabi splitting with various structural parameters including spacer thickness, incident angle and DBR period greatly differ from those observed in graphene/DBR/metal hybrid structure. In addition, the discrepancies induced via metal Ag and Au films as well as the possible influence mechanism were also discussed.

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“…OTSs have found application in various optical devices with new ways to control light. Modern technologies offer a great number of structures which allow obtaining OTSs using various optical materials and metamaterials including chiral, nonlinear, resonant, nanocomposite, and anisotropic ones [4][5][6][7]. Theoretically and experimentally investigated directional surface waves, called Dyakonov surface waves, are supported at the interface of dielectric uniaxial birefringent media based on a modified Otto-Kretchmann configuration [8,9].…”

Section: Introductionmentioning

confidence: 99%

Chiral Optical Tamm States at the Interface between an All-Dielectric Polarization-Preserving Anisotropic Mirror and a Cholesteric Liquid Crystal

et al. 2019

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As a new localized state of light, the chiral optical Tamm state exists at the interface between a polarization-retaining anisotropic mirror and a substance with optical activity. Considering a hybrid structure comprising a metal-free polarization-preserving mirror and a cholesteric liquid crystal, we highlight the high Q factor arising from the all-dielectric framework. The intensity of localized light decreases exponentially with increasing distance from the interface. The penetration of the field into the cholesteric liquid crystal is essentially prohibited for wavelengths lying in the photonic bandgap and close to the cholesteric pitch length. The dielectric mirror has its own photonic bandgap. The energy transfer along the interface can be effectively switched off by setting the tangential wave vector to zero. The spectral behavior of the chiral optical Tamm state is observed both as reflection and transmission resonance. This Fano resonance is analogous to the Kopp-Genack effect. Our analytics are well in line with precise calculations, which may pave a new route for the future development of intelligent design for laser and sensing applications.

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Ultrafast All-Optical Light Control with Tamm Plasmons in Photonic Nanostructures

Cited by 46 publications

References 45 publications

Untargeted effects in organic exciton–polariton transient spectroscopy: A cautionary tale

Untargeted effects in organic exciton–polariton transient spectroscopy: A cautionary tale

Coupling Mechanism between Tamm Plasmon Polaritons and Monolayer WS2 Embedded in Metal/Dielectric Bragg Reflector Hybrid Architecture

Chiral Optical Tamm States at the Interface between an All-Dielectric Polarization-Preserving Anisotropic Mirror and a Cholesteric Liquid Crystal

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