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arxiv: 2302.04085 · v2 · pith:2755FMXS · submitted 2023-02-08 · physics.optics · physics.app-ph

Ultrafast optical control of polariton energy in an organic semiconductor microcavity

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classification physics.optics physics.app-ph
keywords polaritoncavityultrafastapplicationscondensatescontrolcouplingenergy
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The manipulation of exciton-polaritons and their condensates is of great interest due to their applications in polariton simulators and high-speed, all-optical logic devices. Until now, methods of trapping and manipulating such condensates are not dynamically reconfigurable or result in an undesirable reduction in the exciton-photon coupling strength. Here, we present a new strategy for the ultrafast control of polariton resonances via transient modification of an optical cavity mode. We have constructed multilayer organic semiconductor microcavities that contain two absorbers: one strongly- and one weakly-coupled to the cavity photon mode. By selectively exciting the weakly-coupled absorber with ultrashort laser pulses, we modulate the cavity refractive index and generate fully-reversible blueshifts of the lower polariton branch by up to 8 meV in sub-ps timescales with no corresponding reduction in the exciton-photon coupling strength. Our work demonstrates the ability to manipulate polariton energy landscapes over ultrafast timescales with important applications in emerging computing technologies.

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