Polariton Transitions in Femtosecond Transient Absorption Studies of Ultrastrong Light–Molecule Coupling

Delpo, Courtney A.; Kudisch, Bryan; Park, Kyu Hyung; Khan, Saeed Uz Zaman; Fassioli, Francesca; Fausti, Daniele; Rand, Barry P.; Scholes, Gregory D.

doi:10.1021/acs.jpclett.0c00247

Cited by 69 publications

(106 citation statements)

References 41 publications

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“…Our model suggests that these features inevitably appear near any optical resonances in the ground state due to the complex optical structure of strong-coupled cavities. In contrast to previous studies, 52,62 we find that within practical pump intensity ranges the shape of these features remains constant, and hence power dependence may not be applied to rule them out, but they may be disentangled through their unique angular responses. Only when measuring with temporal resolution shorter than the very short expected polariton lifetime do we detect signatures that cannot be accounted for in the phenomenological model.…”

Section: Introductioncontrasting

confidence: 99%

“…We perform transient measurements on a set of low-and high-Q microcavities in the strong-coupling regime and observe long-lived, highly structured spectral responses analogous to earlier reports of photoexcited polaritons. 36,[50][51][52] We find that these signatures persist regardless of the choice of excitation wavelength, even in conditions when no polaritons or molecular electronic states should be excited. Instead, we can describe the critical characteristics of these features using a simple model that only considers polariton contraction, thermal expansion, and bulk refractive index changes.…”

Section: Introductionmentioning

confidence: 71%

“…Accordingly, several subsequent studies using low-Q metallic cavities have reported intriguingly long polariton lifetimes (>1 ps) and alterations to intrinsic photochemical processes from energy transport to singlet fission. 33,36,[51][52][53][54][55][56] Crucially, the understanding of the dynamics in these experiments depends sensitively on the ability to robustly assign the observed spectral features to specific electronic states. In the studies on low-Q cavities, almost the entirety of the photoexcited response was assigned to photoexcited polaritons, with no direct signatures of the dark states reported.…”

Section: Introductionmentioning

confidence: 99%

“…While clearly identified in vibro-polariton studies and implicated in the blueshifts of organic polariton condensates, 61 it has been considered and explicitly discarded in the transient spectroscopy of exciton-polaritons. 52,62 Recent work by Liu et al on exciton-polaritons suggests that other effects-the modulation of molecular excited-state absorption spectra by the cavity structure, 62 and carrier heating/thermalization dynamics within metal mirrors 63 -should likewise be taken into account.…”

Section: Introductionmentioning

confidence: 99%

See 3 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: Introductioncontrasting

confidence: 99%

Section: Introductionmentioning

confidence: 71%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

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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“…50 Notably, previous studies underscore the importance of dark states, 50,51 although extrapolating the same physics to plasmonic-based hybrids in the visible regime should be done with care. Recent transient absorption studies at visible wavelengths find that two-particle polaritonic states play an important role, 52 while a two-dimensional electronic spectroscopy (2DES) investigation has measured a relaxation pathway from upper to lower branch without the involvement of the molecular dark states. 53 In this work, we explored the ultrafast dynamics of plexcitons and corresponding dissipation mechanisms in detail.…”

Section: The Bigger Picturementioning

confidence: 99%

Understanding radiative transitions and relaxation pathways in plexcitons

Finkelstein-Shapiro

Mante

Sarisozen

et al. 2021

Chem

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When molecules are close to plasmonic nanoparticles, they form hybridized lightmatter or plexciton states. Potential use of plexcitonic materials depends on their coherence and excitation lifetimes, and thus, it is important to identify their limiting factors. We combine theoretical modeling with multidimensional spectroscopy to study relaxation of plexciton states from a few femtoseconds to their thermalization. This enables us to assign responsible physical mechanisms and provide an understanding on which to base further improvements of the materials.

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Tuning the Coherent Propagation of Organic Exciton‐Polaritons through Dark State Delocalization

et al. 2022

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While there have been numerous reports of long-range polariton transport at room-temperature in organic cavities, the spatiotemporal evolution of the propagation is scarcely reported, particularly in the initial coherent sub-ps regime, where photon and exciton wavefunctions are inextricably mixed. Hence the detailed process of coherent organic exciton-polariton transport and, in particular, the role of dark states has remained poorly understood. Here, femtosecond transient absorption microscopy is used to directly image coherent polariton motion in microcavities of varying quality factor. The transport is found to be well-described by a model of band-like propagation of an initially Gaussian distribution of exciton-polaritons in real space. The velocity of the polaritons reaches values of ≈ 0.65 × 10 6 m s −1 , substantially lower than expected from the polariton dispersion. Further, it is found that the velocity is proportional to the quality factor of the microcavity. This unexpected link between the quality-factor and polariton velocity is suggested to be a result of varying admixing between delocalized dark and polariton states.

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Polariton Transitions in Femtosecond Transient Absorption Studies of Ultrastrong Light–Molecule Coupling

Cited by 69 publications

References 41 publications

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

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

Understanding radiative transitions and relaxation pathways in plexcitons

Tuning the Coherent Propagation of Organic Exciton‐Polaritons through Dark State Delocalization

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