%0 Journal Article %1 PhysRevLett.132.016202 %A Wietek, Edith %A Florian, Matthias %A Göser, Jonas %A Taniguchi, Takashi %A Watanabe, Kenji %A Högele, Alexander %A Glazov, Mikhail M. %A Steinhoff, Alexander %A Chernikov, Alexey %D 2024 %I American Physical Society %J Phys. Rev. Lett. %K a %N 1 %P 016202 %R 10.1103/PhysRevLett.132.016202 %T Nonlinear and negative effective diffusivity of interlayer excitons in moiré-free heterobilayers %U https://link.aps.org/doi/10.1103/PhysRevLett.132.016202 %V 132 %X Interlayer exciton diffusion is studied in atomically reconstructed MoSe2/WSe2 heterobilayers with suppressed disorder. Local atomic registry is confirmed by characteristic optical absorption, circularly polarized photoluminescence, and g-factor measurements. Using transient microscopy we observe propagation properties of interlayer excitons that are independent from trapping at moiré- or disorder-induced local potentials. Confirmed by characteristic temperature dependence for free particles, linear diffusion coefficients of interlayer excitons at liquid helium temperature and low excitation densities are almost 1000 times higher than in previous observations. We further show that exciton-exciton repulsion and annihilation contribute nearly equally to nonlinear propagation by disentangling the two processes in the experiment and simulations. Finally, we demonstrate effective shrinking of the light emission area over time across several hundreds of picoseconds at the transition from exciton- to the plasma-dominated regimes. Supported by microscopic calculations for band gap renormalization to identify the Mott threshold, this indicates transient crossing between rapidly expanding, short-lived electron-hole plasma and slower, long-lived exciton populations.

@article{PhysRevLett.132.016202, abstract = {Interlayer exciton diffusion is studied in atomically reconstructed MoSe2/WSe2 heterobilayers with suppressed disorder. Local atomic registry is confirmed by characteristic optical absorption, circularly polarized photoluminescence, and g-factor measurements. Using transient microscopy we observe propagation properties of interlayer excitons that are independent from trapping at moiré- or disorder-induced local potentials. Confirmed by characteristic temperature dependence for free particles, linear diffusion coefficients of interlayer excitons at liquid helium temperature and low excitation densities are almost 1000 times higher than in previous observations. We further show that exciton-exciton repulsion and annihilation contribute nearly equally to nonlinear propagation by disentangling the two processes in the experiment and simulations. Finally, we demonstrate effective shrinking of the light emission area over time across several hundreds of picoseconds at the transition from exciton- to the plasma-dominated regimes. Supported by microscopic calculations for band gap renormalization to identify the Mott threshold, this indicates transient crossing between rapidly expanding, short-lived electron-hole plasma and slower, long-lived exciton populations.}, added-at = {2024-04-26T15:06:25.000+0200}, author = {Wietek, Edith and Florian, Matthias and G\"oser, Jonas and Taniguchi, Takashi and Watanabe, Kenji and H\"ogele, Alexander and Glazov, Mikhail M. and Steinhoff, Alexander and Chernikov, Alexey}, biburl = {https://www.bibsonomy.org/bibtex/2fb09e06e4d8327683c16bce62457a324/ctqmat}, day = 04, doi = {10.1103/PhysRevLett.132.016202}, interhash = {e094678dfdf280ebe12f62284610a72a}, intrahash = {fb09e06e4d8327683c16bce62457a324}, journal = {Phys. Rev. Lett.}, keywords = {a}, month = {01}, number = 1, numpages = {10}, pages = 016202, publisher = {American Physical Society}, timestamp = {2024-04-26T15:51:52.000+0200}, title = {Nonlinear and negative effective diffusivity of interlayer excitons in moir\'e-free heterobilayers}, url = {https://link.aps.org/doi/10.1103/PhysRevLett.132.016202}, volume = 132, year = 2024 }