16:30 〜 16:45
[A-10-03] Polarization-Independent Enhancement of Optical Absorption in a GaAs Quantum Well Embedded in an Air-bridge Bull’s-eye Cavity
Presentation style: On-site (in-person)
https://doi.org/10.7567/SSDM.2022.A-10-03
Bull’s-eye structures containing optically active media provide an attractive platform for implementing efficient photonic quantum interfaces. By exploiting their symmetric nature, we previously designed a bull’s-eye optical cavity that enhances the optical absorption without polarization dependence, which can be applied to an efficient photon–spin converter using a gate-defined quantum dot (GQD). In this correspondence, we experimentally demonstrate that our bull’s-eye cavity can enhance the optical absorption of a quantum well (QW) without polarization dependence. Photoluminescence excitation spectra from the fabricated cavities show the maximum 12-times enhancement of QW absorption. The enhancement is almost identical for orthogonal polarizations.
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