• Open Access

Ultrafast nonequilibrium dynamics of strongly coupled resonances in the intrinsic cavity of WS2 nanotubes

Bojana Višić, Lena Yadgarov, Eva A. A. Pogna, Stefano Dal Conte, Victor Vega-Mayoral, Daniele Vella, Reshef Tenne, Giulio Cerullo, and Christoph Gadermaier
Phys. Rev. Research 1, 033046 – Published 24 October 2019
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Abstract

Strong coupling of electric transition dipoles with optical or plasmonic resonators modifies their light-matter interaction and, therefore, their optical spectra. Semiconducting WS2 nanotubes intrinsically provide the dipoles through their excitonic resonances, and the optical cavity via their cylindrical shape. We investigate the nonequilibrium light-matter interaction in WS2 nanotubes in the time domain using femtosecond transient extinction spectroscopy. We develop a phenomenological coupled oscillator model with time-dependent parameters to describe the transient extinction spectra, allowing us to extract the underlying nonequilibrium electron dynamics. We find that the exciton and trion resonances shift due to many-body effects of the photogenerated charge carriers and their population dynamics on the femto- and picosecond timescale. Our results show that the time-dependent phenomenological model quantitatively reproduces the nonequilibrium optical response of strongly coupled systems.

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  • Received 19 November 2018
  • Revised 28 May 2019

DOI:https://doi.org/10.1103/PhysRevResearch.1.033046

Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article's title, journal citation, and DOI.

Published by the American Physical Society

Physics Subject Headings (PhySH)

  1. Research Areas
Ultrafast phenomena
  1. Physical Systems
Nanotubes
  1. Techniques
Femtosecond laser spectroscopyOptical spectroscopy
Condensed Matter, Materials & Applied Physics

Authors & Affiliations

Bojana Višić1,2,3,*, Lena Yadgarov1, Eva A. A. Pogna4, Stefano Dal Conte4, Victor Vega-Mayoral5,6,7, Daniele Vella5,6,8,9, Reshef Tenne1, Giulio Cerullo4, and Christoph Gadermaier4,5,6,10,†

  • 1Department of Materials and Interfaces, Weizmann Institute of Science, Rehovot 76100, Israel
  • 2Department of Condensed Matter Physics, Jozef Stefan Institute, Jamova 39, 1000 Ljubljana, Slovenia
  • 3Center for Solid State Physics and New Materials, Institute of Physics Belgrade, University of Belgrade, Pregrevica 118, 11080 Belgrade, Serbia
  • 4Department of Physics, Politecnico di Milano, P. Leonardo da Vinci 32, 20133 Milan, Italy
  • 5Department of Complex Matter, Jozef Stefan Institute, Jamova 39, 1000 Ljubljana, Slovenia
  • 6Jozef Stefan International Postgraduate School, Jamova 39, 1000 Ljubljana, Slovenia
  • 7School of Physics, Trinity College Dublin, Dublin 2, Ireland
  • 8Department of Physics, National University of Singapore, 2 Science Drive 3, Singapore 117542, Singapore
  • 9Faculty of Mechanical Engineering, University of Ljubljana, Askerceva 6, 1000 Ljubljana, Slovenia
  • 10Center for Nano Science and Technology, Italian Institute of Technology, V. Pascoli 70/3, 20133 Milano, Italy

  • *Corresponding author: bojana.visic@ipb.ac.rs
  • christoph.gadermaier@polimi.it

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Vol. 1, Iss. 3 — October - December 2019

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