Abstract
We demonstrate room temperature (RT) polariton lasing in an all-dielectric microcavity containing non-polar III-nitride quantum wells (QWs) as active media. The microcavity is fabricated using the photo-electrochemical etching method, by which an optimally grown -plane III-nitride active region is detached from the substrate in the form of a membrane, which is subsequently inserted between two distributed Bragg reflectors, with 4 and 10 pairs for the top and bottom mirrors, respectively. The active region consists of 25 (5 nm/3 nm) QWs. The produced microcavities exhibit two closely spaced polarization-resolved lower polariton branches at RT, in line with the selection rules of the non-polar orientation, having a Rabi splitting of 62 and 72 meV in the and polarizations, respectively. In a positively detuned 3λ/2-thick microcavity, polariton lasing is observed at ambient conditions in the polarization, with a threshold ∼ 3 times lower than previous state of the art, despite the use of a relatively weak top reflector.
- Received 16 June 2021
- Revised 27 August 2021
- Accepted 27 August 2021
DOI:https://doi.org/10.1103/PhysRevB.104.125311
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