Strong exciton photon coupling at room temperature in microcavities containing two-dimensional layered perovskite compounds

Details Strong exciton photon coupling at room temperature in microcavities containing two-dimensional layered perovskite compounds Strong exciton photon coupling at room temperature in microcavities containing two-dimensional layered perovskite compounds

Jun 2008

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2008njph...10f5007l&link_type=abstract

New Journal of Physics, Volume 10, Issue 6, pp. 065007 (2008).

Physics

7

Scientific paper

We have realized Perot Fabry microcavities containing a two-dimensional layered perovskite-type semiconductor: (C6H5C2H4 NH3)2PbI4 between a dielectric mirror and a metallic mirror. A strong coupling regime between the perovskite exciton and the confined photon mode has been evidenced at room temperature from angular-resolved reflectivity experiments, anticrossings as large as 190 meV are observed between the excitonic and cavity modes. We have shown that the design of the microcavity can be varied at will, so that the detuning or the Rabi splitting can be precisely chosen. The emission of the polaritonic low energy branch has been observed.

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