Constructive protocols prove that arbitrary fermionic quantum operations are achievable with global controls in optical lattice Fermi-Hubbard systems.
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The work shows a gate-tunable interference effect in a voltage-biased triple quantum dot system that produces a minimum in charge current coinciding with a maximum in energy transfer to a capacitively coupled damped resonator representing a vibrational mode.
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Programmable Fermionic Quantum Processors with Globally Controlled Lattices
Constructive protocols prove that arbitrary fermionic quantum operations are achievable with global controls in optical lattice Fermi-Hubbard systems.
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Simulating electron-vibron energy transfer with quantum dots and resonators
The work shows a gate-tunable interference effect in a voltage-biased triple quantum dot system that produces a minimum in charge current coinciding with a maximum in energy transfer to a capacitively coupled damped resonator representing a vibrational mode.