Science Advances

Supplementary Materials

This PDF file includes:

  • Section S1. Oscillator strength in bare and QW nanorods
  • Section S2. Numerical simulation of the Fabry-Pérot cavity modes
  • Section S3. Polariton dispersion curves with guided modes in the QW nanorod cavity
  • Section S4. Rabi splitting energy in the QW nanorod cavity
  • Section S5. Angle-resolved emission spectra from the QW nanorod and spatial coherence
  • Section S6. Polariton dispersion above lasing threshold density
  • Section S7. Statistical data for lasing thresholds
  • Section S8. Room temperature lasing spectra of the bare ZnO nanorod cavity
  • Section S9. Estimation of EHP density in bare and QW nanorods
  • Section S10. Temperature-dependent lasing characteristics of the bare ZnO nanorod
  • Fig. S1. Reflectance spectra of bare and QW nanorods at 5 K.
  • Fig. S2. Electric field distribution for HE22 and HE13 waveguide modes in the nanorod cavity geometry.
  • Fig. S3. Polariton dispersion curves.
  • Fig. S4. Angle-resolved emission spectra from the QW nanocavity.
  • Fig. S5. Photoluminescence spectra and polariton dispersion at the exciton density above the lasing threshold.
  • Fig. S6. Statistical data of the lasing threshold for QW and bare nanorods.
  • Fig. S7. Emission spectra of the bare ZnO nanorod cavity depending on the pump fluence.
  • Fig. S8. Absorption spectra for ZnO and Zn0.9Mg0.1O layers.
  • Fig. S9. Temperature-dependent lasing spectra of the bare ZnO nanorod.
  • References (4550)

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