Evgeny M. Alexeev scite author profile

Strong coupling of monolayer metal dichalcogenide semiconductors with light offers encouraging prospects for realistic exciton devices at room temperature. However, the nature of this coupling depends extremely sensitively on the optical confinement and the orientation of electronic dipoles and fields. Here, we show how plasmon strong coupling can be achieved in compact, robust, and easily assembled gold nano-gap resonators at room temperature. We prove that strong-coupling is impossible with monolayers due to the large exciton coherence size, but resolve clear anti-crossings for greater than 7 layer devices with Rabi splittings exceeding 135 meV. We show that such structures improve on prospects for nonlinear exciton functionalities by at least 104, while retaining quantum efficiencies above 50%, and demonstrate evidence for superlinear light emission.

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The ultrafast dynamics and conductivity of photoexcited graphene at different Fermi energies

Tomadin

et al. 2018

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Exciton and trion dynamics in atomically thinMoSe2andWSe2: Effect of localization

et al. 2016

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We present a detailed investigation of the exciton and trion dynamics in naturally doped MoSe 2 and WSe 2 single atomic layers as a function of temperature in the range 10-300K under above band-gap laser excitation. By combining time-integrated and time-resolved photoluminescence (PL) spectroscopy we show the importance of exciton and trion localization in both materials at low temperatures. We also reveal the transition to delocalized exciton complexes at higher temperatures where the exciton and trion thermal energy exceeds the typical localization energy. This is accompanied with strong changes in PL including suppression of the trion PL and decrease of the trion PL life-time, as well as significant changes for neutral excitons in the temperature dependence of the PL intensity and appearance of a pronounced * To whom correspondence should be addressed † TU Dortmund ‡ University of Sheffield ¶ University of Manchester 1 slow PL decay component. In MoSe 2 and WSe 2 studied here, the temperatures where such strong changes occur are observed at around 100 and 200 K, respectively, in agreement with their inhomogeneous PL linewidth of 8 and 20 meV at T ≈10K. The observed behavior is a result of a complex interplay between influences of the specific energy ordering of bright and dark excitons in MoSe 2 and WSe 2 , sample doping, trion and exciton localization and various temperature-dependent non-radiative processes.

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Imaging of Interlayer Coupling in van der Waals Heterostructures Using a Bright-Field Optical Microscope

et al. 2017

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Vertically stacked atomic layers from different layered crystals can be held together by van der Waals forces, which can be used for building novel heterostructures, offering a platform for developing a new generation of atomically thin, transparent, and flexible devices. The performance of these devices is critically dependent on the layer thickness and the interlayer electronic coupling, influencing the hybridization of the electronic states as well as charge and energy transfer between the layers. The electronic coupling is affected by the relative orientation of the layers as well as by the cleanliness of their interfaces. Here, we demonstrate an efficient method for monitoring interlayer coupling in heterostructures made from transition metal dichalcogenides using photoluminescence imaging in a bright-field optical microscope. The color and brightness in such images are used here to identify mono- and few-layer crystals and to track changes in the interlayer coupling and the emergence of interlayer excitons after thermal annealing in heterobilayers composed of mechanically exfoliated flakes and as a function of the twist angle in atomic layers grown by chemical vapor deposition. Material and crystal thickness sensitivity of the presented imaging technique makes it a powerful tool for characterization of van der Waals heterostructures assembled by a wide variety of methods, using combinations of materials obtained through mechanical or chemical exfoliation and crystal growth.

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Evgeny M. Alexeev

Resonantly hybridized excitons in moiré superlattices in van der Waals heterostructures

Strong-coupling of WSe2 in ultra-compact plasmonic nanocavities at room temperature

The ultrafast dynamics and conductivity of photoexcited graphene at different Fermi energies

Exciton and trion dynamics in atomically thinMoSe2andWSe2: Effect of localization

Imaging of Interlayer Coupling in van der Waals Heterostructures Using a Bright-Field Optical Microscope

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