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Quantum Chemistry
Floquet interferometry of a dressed semiconductor quantum dot
arXiv
Authors: Felix-Ekkehard von Horstig, Lorenzo Peri, Sylvain Barraud, Sergey N. Shevchenko, Christopher J. B. Ford, M. Fernando Gonzalez-Zalba
Year
2024
Paper ID
65193
Status
Preprint
Abstract Read
~2 min
Abstract Words
160
Citations
N/A
Abstract
A quantum system interacting with a time-periodic excitation creates a ladder of hybrid eigenstates in which the system is mixed with an increasing number of photons. This mechanism, referred to as dressing, has been observed in the context of light-matter interaction in systems as varied as atoms, molecules and solid-state qubits. In this work, we demonstrate state dressing in a semiconductor quantum dot tunnel-coupled to a charge reservoir. We observe the emergence of a Floquet ladder of states in the system's high-frequency electrical response, manifesting as interference fringes at the multiphoton resonances despite the system lacking an avoided crossing. We study the dressed quantum dot while changing reservoir temperature, charge lifetime, and excitation amplitude and reveal the fundamental nature of the mechanism by developing a theory based on the quantum dynamics of the Floquet ladder, which is in excellent agreement with the data. Furthermore, we show how the technique finds applications in the accurate electrostatic characterisation of semiconductor quantum dots.
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- This paper contributes to the Quantum Chemistry research area in the Quantum Articles archive.
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- A quantum system interacting with a time-periodic excitation creates a ladder of hybrid eigenstates in which the system is mixed with an increasing number of photons.
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