Add to ORKGWe define single quantum dots of lengths varying from 60 nm up to nearly half a micron in Ge-Si core-shell nanowires. The charging energies scale inversely with the quantum dot length between 18 and 4meV. Subsequently, we split up a long dot into a double quantum dot with a separate control over the tunnel couplings and the electrochemical potential of each dot. Both single and double quantum dot configurations prove to be very stable and show excellent control over the electrostatic environment of the dots, making this system a highly versatile platform for spin-based quantum computing. Published by AIP Publishing
The research in this thesis is motivated by an interest in quantum physics and by the prospect of ne...
We investigate tunable hole quantum dots defined by surface gating Ge/Si core-shell nanowire heteros...
A controllable and coherent light-matter interface is an essential element for a scalable quantum in...
We define single quantum dots of lengths varying from 60 nm up to nearly half a micron in Ge-Si core...
We report highly tunable control of holes in Ge/Si core/shell nanowires. We demonstrate the ability ...
Spins in semiconductor quantum dots are among the most promising candidates for the realization of a...
In a universal quantum computer, coherent control over the state of a quantum mechanical two-level s...
In a universal quantum computer, coherent control over the state of a quantum mechanical two-level s...
A quantum computer requires a quantum-mechanical two-level system with coherent control over its eig...
The understanding of quantum mechanics enabled the development of technology such as transistors and...
Electrons and holes confined in quantum dots define excellent building blocks for quantum emergence,...
Spin qubits in germanium are a promising contender for scalable quantum computers. Reading out of th...
We report integrated charge sensing measurements on a Si/SiGe double quantum dot. The quantum dot is...
The research in this thesis is motivated by an interest in quantum physics and by the prospect of ne...
We investigate tunable hole quantum dots defined by surface gating Ge/Si core-shell nanowire heteros...
A controllable and coherent light-matter interface is an essential element for a scalable quantum in...
We define single quantum dots of lengths varying from 60 nm up to nearly half a micron in Ge-Si core...
We report highly tunable control of holes in Ge/Si core/shell nanowires. We demonstrate the ability ...
Spins in semiconductor quantum dots are among the most promising candidates for the realization of a...
In a universal quantum computer, coherent control over the state of a quantum mechanical two-level s...
In a universal quantum computer, coherent control over the state of a quantum mechanical two-level s...
A quantum computer requires a quantum-mechanical two-level system with coherent control over its eig...
The understanding of quantum mechanics enabled the development of technology such as transistors and...
Electrons and holes confined in quantum dots define excellent building blocks for quantum emergence,...
Spin qubits in germanium are a promising contender for scalable quantum computers. Reading out of th...
We report integrated charge sensing measurements on a Si/SiGe double quantum dot. The quantum dot is...
The research in this thesis is motivated by an interest in quantum physics and by the prospect of ne...
We investigate tunable hole quantum dots defined by surface gating Ge/Si core-shell nanowire heteros...
A controllable and coherent light-matter interface is an essential element for a scalable quantum in...