Thomas Descamps scite author profile

Thomas Descamps

3Publications

18Citation Statements Received

0Citation Statements Given

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102

Affiliations

KTH Royal Institute of Technology, RWTH Aachen University, Jülich Aachen Research Alliance

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High-efficiency gate-defined quantum dot to single mode fiber interface assisted by a photonic crystal cavity

Marzban

Descamps

et al. 2020

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Efficiently interfacing photonic with semiconductor qubits plays an important role in future quantum communication applications. In this paper, we model a photon to exciton interface based on an optically active gate-defined quantum dot (OAQD) embedded in a carefully designed photonic crystal cavity constraining its emission profile via the Purcell effect while maintaining a low enough quality factor to allow for electrical tuning of the emission wavelength. By matching the in-plane k-vector of a cavity mode and the reciprocal lattice constant of the photonic crystal, vertical emission is obtained. A back-reflection mirror located below the cavity and integrated as part of an already predefined process flow allows for not only the increasing of the light extraction efficiency but also the tailoring of the extracted beam profile to match that of a single mode fiber. We numerically show that a photon emitted by the OAQD can be coupled to the targeted free-space Gaussian beam with a probability above 50%, limited by electrode absorption. Further efficiency improvement up to 90% is possible by using indium tin oxide instead of gold as a gate material.

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Stochastic dynamics of strongly-bound magnetic vortex pairs

Bondarenko

Holmgren

Koop

et al. 2017

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We demonstrate that strongly-bound spin-vortex pairs exhibit pronounced stochastic behaviour. Such dynamics is due to collective magnetization states originating from purely dipolar interactions between the vortices. The resulting thermal noise exhibits telegraph-like behaviour, with random switching between different oscillation regimes observable at room temperature. The noise in the system is further studied by varying the external field and observing the related changes in the frequency of switching and the probability for different magnetic states and regimes. Monte Carlo simulations are used to replicate and explain the experimental observations.

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Semiconductor Membranes for Electrostatic Exciton Trapping in Optically Addressable Quantum Transport Devices

et al. 2023

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Thomas Descamps

High-efficiency gate-defined quantum dot to single mode fiber interface assisted by a photonic crystal cavity

Stochastic dynamics of strongly-bound magnetic vortex pairs

Semiconductor Membranes for Electrostatic Exciton Trapping in Optically Addressable Quantum Transport Devices

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