Fundamental Uncertainties in Nonequilibrium Atom-Field Interactions
POSTER
Abstract
Atomic clouds represent one of the the main workhorses for modern and future quantum technologies. A precise understanding of their fundamental physical limitations is a crucial task in the strive for miniaturized and fully integrated quantum sensors.
We explore the use of stochastic methods to describe the fundamental uncertainties in nonequilibrium atom-field interactions. Our approach can be of use in the design and interpretation of future generations of quantum sensors.
We explore the use of stochastic methods to describe the fundamental uncertainties in nonequilibrium atom-field interactions. Our approach can be of use in the design and interpretation of future generations of quantum sensors.
*Wen acknowledge support from the German Space Agency (DLR) with funds provided by the Federal Ministry for Economic Affairs and Climate Action (BMWK) under grant number 50MW2251.
Publication: D. Reiche, F. Intravaia, K. Busch,
Wading through the void: Exploring quantum friction and nonequilibrium fluctuations, APL Photonics 7, 030902 (2022).
H. Dong, D. Reiche, J.-T. Hsiang, B.-L. Hu, Quantum Thermodynamic Uncertainties in Nonequilibrium Systems from Robertson-Schrödinger Relations, Entropy 24, 870 (2022).
D. Reiche, J.-T. Hsiang, B.-L. Hu, Quantum Thermodynamic Uncertainty Relations, Generalized Current Fluctuations and Nonequilibrium Fluctuation–Dissipation Inequalities, Entropy 24, 1016 (2022).
Presenters
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Daniel Reiche
- Humboldt University of Berlin