Publications by authors named "Fabien Portier"
In this report we review the present state of the art of the control of propagating quantum states at the single-electron level and its potential application to quantum information processing. We give an overview of the different approaches that have been developed over the last few years in order to gain full control over a propagating single-electron in a solid-state system. After a brief introduction of the basic concepts, we present experiments on flying qubit circuits for ensemble of electrons measured in the low frequency (DC) limit.
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- - The study investigates how high impedance from a resonator affects shot noise in a voltage biased tunnel junction, leading to reduced noise levels.
- - The tunnel junction is part of a quarter-wavelength resonator with a SQUID array, which helps achieve impedance in the kΩ range and adjust the resonant frequency between 4-6 GHz.
- - Findings show a significant Coulomb blockade effect (30% reduction in conductance) and align with the extended dynamical Coulomb blockade theory, indicating effective measurement of current fluctuations.