Generation of C-band entangled photon pairs by biexciton-exciton cascade from symmetric InAs/InP quantum dots

• URL: http://arxiv.org/abs/2509.24500v1
• Date: Mon, 29 Sep 2025 09:16:04 GMT
• Title: Generation of C-band entangled photon pairs by biexciton-exciton cascade from symmetric InAs/InP quantum dots
• Authors: Anna Musiał, Maja Wasiluk, Katarzyna Roszak, Michał Gawełczyk, Wojciech Rudno-Rudziński, Paweł Wyborski, Johann P. Reithmaier, Mohamed Benyoucef, Grzegorz Sęk,
• Abstract summary: We study the generation of pairs of polarization-entangled photons at telecom C-band by biexciton-exciton cascade from non-resonantly excited epitaxial InAs/InP quantum dots (QDs)<n>It is realized without external tuning of the fine structure splitting (FSS), which does not exceed 10 $mu$eV in as-grown nanostructures.
• Score: 0.036116808275150965
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Hereby, we study the generation of pairs of polarization-entangled photons at telecom C-band by biexciton-exciton cascade from non-resonantly excited epitaxial InAs/InP quantum dots (QDs). It is realized without external tuning of the fine structure splitting (FSS), which does not exceed 10 $\mu$eV in as-grown nanostructures, due to their high in-plane symmetry. Excitonic complexes are identified by means of excitation power-dependent and polarization-resolved magneto)microphotoluminescence. Their origin from different carrier configurations confined in the same QD is confirmed by time correlations of emitted photons. Experimental results are supported by 8-band kp calculations, followed by the configuration interaction method to include excitonic effects. This comparison reveals the structure of higher energy states, allowing for the reconstruction of the QD structural parameters. To verify and quantify the entanglement, we perform quantum state tomography and reconstruct the two-photon density matrix. Its diagonalization allows a detailed analysis of the entangled state and reveals an unfavourable interplay between phase accumulation and decoherence, pointing to a clear route for boosting entanglement by using a XX resonant, pulsed excitation scheme and shortening the radiative lifetimes.

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