Semiconductor quantum dot arrays defined electrostatically in a 2D electron gas provide a scalable platform for quantum information processing and quantum simulations. For the operation of quantum dot arrays, appropriate voltages need to be applied to the gate electrodes that define the quantum dot potential landscape. Tuning the gate voltages has proven to be a time-consuming task, because of initial electrostatic disorder and capacitive cross-talk effects. Here, we report on the automated tuning of the inter-dot tunnel coupling in gate-defined semiconductor double quantum dots. The automation of the tuning of the inter-dot tunnel coupling is the next step forward in scalable and efficient control of larger quantum dot arrays. This work gr...
Building a quantum computer able to solve real-world problems is facing several challenges, both in ...
We report on electron transport measurements of a lithographically-defined silicon double quantum do...
Semiconductor quantum dots are potential building blocks for scalable qubit architectures. Efficient...
Semiconductor quantum dot arrays defined electrostatically in a 2D electron gas provide a scalable p...
Electrostatically-defined semiconductor quantum dot arrays offer a promising platform for quantum co...
We report the computer-automated tuning of gate-defined semiconductor double quantum dots in GaAs he...
The interaction between electrons in arrays of electrostatically defined quantum dots is naturally d...
The interaction between electrons in arrays of electrostatically defined quantum dots is naturally d...
© 2019, The Author(s). Electrostatically defined quantum dot arrays offer a compelling platform for ...
International audienceRecent demonstrations using electron spins stored in quantum dot array as qubi...
Few-electron states confined in quantum-dot arrays are key objects in quantum computing. The discrim...
Electrostatically defined quantum dot arrays offer a compelling platform for quantum computation and...
Quantum computation based on semiconductor electron-spin qubits requires high control of tunnel coup...
We present a highly controllable double quantum dot device based on bilayer graphene. Using a device...
Quantum-Dot Cellular Automata (QCA) is being investigated as a possible alternative for encoding and...
Building a quantum computer able to solve real-world problems is facing several challenges, both in ...
We report on electron transport measurements of a lithographically-defined silicon double quantum do...
Semiconductor quantum dots are potential building blocks for scalable qubit architectures. Efficient...
Semiconductor quantum dot arrays defined electrostatically in a 2D electron gas provide a scalable p...
Electrostatically-defined semiconductor quantum dot arrays offer a promising platform for quantum co...
We report the computer-automated tuning of gate-defined semiconductor double quantum dots in GaAs he...
The interaction between electrons in arrays of electrostatically defined quantum dots is naturally d...
The interaction between electrons in arrays of electrostatically defined quantum dots is naturally d...
© 2019, The Author(s). Electrostatically defined quantum dot arrays offer a compelling platform for ...
International audienceRecent demonstrations using electron spins stored in quantum dot array as qubi...
Few-electron states confined in quantum-dot arrays are key objects in quantum computing. The discrim...
Electrostatically defined quantum dot arrays offer a compelling platform for quantum computation and...
Quantum computation based on semiconductor electron-spin qubits requires high control of tunnel coup...
We present a highly controllable double quantum dot device based on bilayer graphene. Using a device...
Quantum-Dot Cellular Automata (QCA) is being investigated as a possible alternative for encoding and...
Building a quantum computer able to solve real-world problems is facing several challenges, both in ...
We report on electron transport measurements of a lithographically-defined silicon double quantum do...
Semiconductor quantum dots are potential building blocks for scalable qubit architectures. Efficient...