Add to ORKGSingle electron spin in a semiconductor quantum dot (QD) and single photon wavepacket propagating in an optical waveguide are investigated as carriers of quantum bit (qubit) for information processing. Cavity quantum electrodynamics of the coupled system composed of charged QD, microcavity and waveguide provides a quantum interface for the interplay of stationary spin qubits and flying photon qubits via cavity assisted optical control. This interface forms the basis for a wide range of essential functions of a quantum network, including transferring, swapping, and entangling qubits at distributed quantum nodes as well as a deterministic source and an efficient detector of a single photon wavepacket with arbitrarily specified shape. The cavi...
Single spins confined in semiconductor quantum dots - artificial atoms in the solid-state - are att...
A single spin confined to a semiconductor quantum dot is a system of significant interest for quantu...
We use gate voltage control of the exchange interaction to prepare, manipulate, and measure two-elec...
An electron spin confined to a self-assembled quantum dot presents itself as a natural candidate for...
In this thesis we consider fundamental problems in relation to the development of a quantum computer...
Self-assembled quantum dots can act as an interface between single spins and photons. They combine t...
Spin degrees of freedom have been extensively explored in the context of quantum information process...
Control of electron spin decoherence in contact with a mesoscopic bath of many interacting nuclear s...
We review the progress and main challenges in implementing large-scale quantum computing by optical ...
Spins localized in semiconductor nanostructures have been intensively investigated for quantum spint...
A huge effort is underway to develop semiconductor nanostructures as low-noise qubits. A key source ...
Physics considered here is the active control of a quantum system and of its decoherence by its envi...
The aim of this thesis is to theoretically investigate two possible applications of semiconductor qu...
The electron spin decoherence by nuclear spins in semiconductor quantum dots is caused by quantum en...
In this paper, we develop and analyze a hardware platform for a scalable quantum computer based on s...
Single spins confined in semiconductor quantum dots - artificial atoms in the solid-state - are att...
A single spin confined to a semiconductor quantum dot is a system of significant interest for quantu...
We use gate voltage control of the exchange interaction to prepare, manipulate, and measure two-elec...
An electron spin confined to a self-assembled quantum dot presents itself as a natural candidate for...
In this thesis we consider fundamental problems in relation to the development of a quantum computer...
Self-assembled quantum dots can act as an interface between single spins and photons. They combine t...
Spin degrees of freedom have been extensively explored in the context of quantum information process...
Control of electron spin decoherence in contact with a mesoscopic bath of many interacting nuclear s...
We review the progress and main challenges in implementing large-scale quantum computing by optical ...
Spins localized in semiconductor nanostructures have been intensively investigated for quantum spint...
A huge effort is underway to develop semiconductor nanostructures as low-noise qubits. A key source ...
Physics considered here is the active control of a quantum system and of its decoherence by its envi...
The aim of this thesis is to theoretically investigate two possible applications of semiconductor qu...
The electron spin decoherence by nuclear spins in semiconductor quantum dots is caused by quantum en...
In this paper, we develop and analyze a hardware platform for a scalable quantum computer based on s...
Single spins confined in semiconductor quantum dots - artificial atoms in the solid-state - are att...
A single spin confined to a semiconductor quantum dot is a system of significant interest for quantu...
We use gate voltage control of the exchange interaction to prepare, manipulate, and measure two-elec...