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Paper detail

Microcavity design for low threshold polariton condensation with ultrashort optical pulse excitation

We present a microcavity structure with a shifted photonic stop-band to enable efficient non-resonant injection of a polariton condensate with spectrally broad femtosecond pulses. The concept is demonstrated theoretically and confirmed experimentally for a planar GaAs/AlGaAs multilayer heterostructure pumped with ultrashort near-infrared pulses while photoluminescence is collected to monitor the optically injected polariton density. As the excitation wavelength is scanned, a regime of polariton condensation can be reached in our structure at a consistently lower fluence threshold than in a state-of-the-art conventional microcavity. Our microcavity design improves the polariton injection efficiency by a factor of 4, as compared to a conventional microcavity design, when broad excitation pulses are centered at a wavelength of 740 nm. Most remarkably, this improvement factor reaches 270 when the excitation wavelength is centered at 750 nm.

preprint2016arXivOpen access
C. PoellmannU. LeiersederE. GalopinA. LemaîtreA. AmoJ. BlochR. HuberJ. -M. Ménard
cond-mat.mes-hallphysics.optics
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C. PoellmannU. LeiersederE. GalopinA. LemaîtreA. AmoJ. BlochR. HuberJ. -M. Ménard

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