Related papers: Magnetic tuning of the tunnel coupling in an optically active quantum dot molecule

Magnetic tuning of the tunnel coupling in an optically active quantum dot molecule

URL: http://arxiv.org/abs/2303.12552v1
Date: Wed, 22 Mar 2023 13:28:12 GMT
Title: Magnetic tuning of the tunnel coupling in an optically active quantum dot molecule
Authors: Frederik Bopp, Charlotte Cullip, Christopher Thalacker, Michelle Lienhart, Johannes Schall, Nikolai Bart, Friedrich Sbresny, Katarina Boos, Sven Rodt, Dirk Reuter, Arne Ludwig, Andreas D. Wieck, Stephan Reitzenstein, Filippo Troiani, Guido Goldoni, Elisa Molinari, Kai M\"uller, and Jonathan J. Finley
Abstract summary: We report a tuning of the tunnel coupling strength by $(53.4pm1.7)$ %. The ability to fine-tune this coupling is essential for quantum network and computing applications that require quantum systems with near identical performance.
Score: 0.36951300115571695
License: http://creativecommons.org/licenses/by-nc-nd/4.0/
Abstract: Self-assembled optically active quantum dot molecules (QDMs) allow the creation of protected qubits via singlet-triplet spin states. The qubit energy splitting of these states is defined by the tunnel coupling strength and is, therefore, determined by the potential landscape and thus fixed during growth. Applying an in-plane magnetic field increases the confinement of the hybridized wave functions within the quantum dots, leading to a decrease of the tunnel coupling strength. We achieve a tuning of the coupling strength by $(53.4\pm1.7)$ %. The ability to fine-tune this coupling is essential for quantum network and computing applications that require quantum systems with near identical performance.

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