In gate-defined quantum dot systems, the conductance change of electrostatically coupled sensor dots allows the observation of the quantum dots' charge and spin states. Therefore, the sensor dots must be optimally sensitive to changes in its electrostatic environment. A series of conductance measurements varying the two sensor-dot-forming barrier gate voltages serve to tune the dot into a corresponding operating regime. In this paper, we analyze the noise characteristics of the measured data and define a criterion to identify continuous regions with a sufficient signal-gradient-to-noise ratio. Hence, accurate noise estimation is required when identifying the optimal operating regime. Therefore, we evaluate several existing noise estimators,...
Semiconductor quantum dot arrays defined electrostatically in a 2D electron gas provide a scalable p...
We present a theoretical study of the detection of the decay time scales for a single-level quantum ...
In this work we explore the noise characteristics in lithographically-defined two terminal devices c...
Operating semiconductor quantum dots as quantum bits requires isolating single electrons by adjustin...
Building a quantum computer able to solve real-world problems is facing several challenges, both in ...
10 pages. -- Contents: Measurement of the thickness of the quantum wells. -- Charge noise measuremen...
We quantify the intrinsic noise of the Single Electron Box arising from stochastic cyclic electron t...
Background Over the past decade, machine learning techniques have revolutionized how research and sc...
International audienceSilicon quantum devices are maturing from academic single- and two-qubit devic...
While spin qubits based on gate-defined quantum dots have demonstrated very favorable properties for...
The radio-frequency superconducting single electron transistor (RF-SET) is a highly sensitive and fa...
BACKGROUND:Over the past decade, machine learning techniques have revolutionized how research and sc...
We analyze the noise in liquid-gated, room temperature, graphene quantum dots. These devices display...
Charge detection utilizing a highly biased quantum point contact has become the most effective probe...
Sensitive charge detection has enabled qubit readout in solid-state systems. Recently, an alternativ...
Semiconductor quantum dot arrays defined electrostatically in a 2D electron gas provide a scalable p...
We present a theoretical study of the detection of the decay time scales for a single-level quantum ...
In this work we explore the noise characteristics in lithographically-defined two terminal devices c...
Operating semiconductor quantum dots as quantum bits requires isolating single electrons by adjustin...
Building a quantum computer able to solve real-world problems is facing several challenges, both in ...
10 pages. -- Contents: Measurement of the thickness of the quantum wells. -- Charge noise measuremen...
We quantify the intrinsic noise of the Single Electron Box arising from stochastic cyclic electron t...
Background Over the past decade, machine learning techniques have revolutionized how research and sc...
International audienceSilicon quantum devices are maturing from academic single- and two-qubit devic...
While spin qubits based on gate-defined quantum dots have demonstrated very favorable properties for...
The radio-frequency superconducting single electron transistor (RF-SET) is a highly sensitive and fa...
BACKGROUND:Over the past decade, machine learning techniques have revolutionized how research and sc...
We analyze the noise in liquid-gated, room temperature, graphene quantum dots. These devices display...
Charge detection utilizing a highly biased quantum point contact has become the most effective probe...
Sensitive charge detection has enabled qubit readout in solid-state systems. Recently, an alternativ...
Semiconductor quantum dot arrays defined electrostatically in a 2D electron gas provide a scalable p...
We present a theoretical study of the detection of the decay time scales for a single-level quantum ...
In this work we explore the noise characteristics in lithographically-defined two terminal devices c...