Kristiaan De Greve De Greve Towards Solid-State Quantum Repeaters

Towards Solid-State Quantum Repeaters

von Kristiaan De Greve

Ultrafast, Coherent Optical Control and Spin-Photon Entanglement in Charged InAs Quantum Dots

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Beschreibung

Towards Solid-State Quantum Repeaters: Ultrafast, Coherent Optical Control and Spin-Photon Entanglement in Charged InAs Quantum Dots summarizes several state-of-the-art coherent spin manipulation experiments in III-V quantum dots. Both high-fidelity optical manipulation, decoherence due to nuclear spins and the spin coherence extraction are discussed, as is the generation of entanglement between a single spin qubit and a photonic qubit. The experimental results are analyzed and discussed in the context of future quantum technologies, such as quantum repeaters.

Single spins in optically active semiconductor host materials have emerged as leading candidates for quantum information processing (QIP). The quantum nature of the spin allows for encoding of stationary, memory quantum bits (qubits), and the relatively weak interaction with the host material preserves the spin coherence. On the other hand, optically active host materials permit direct interfacing with light, which can be used for all-optical qubit manipulation, and for efficiently mapping matter qubits into photonic qubits that are suited for long-distance quantum communication.


Towards Solid-State Quantum Repeaters: Ultrafast, Coherent Optical Control and Spin-Photon Entanglement in Charged InAs Quantum Dots summarizes several state-of-the-art coherent spin manipulation experiments in III-V quantum dots. Both high-fidelity optical manipulation, decoherence due to nuclear spins and the spin coherence extraction are discussed, as is the generation of entanglement between a single spin qubit and a photonic qubit. The experimental results are analyzed and discussed in the context of future quantum technologies, such as quantum repeaters.

Single spins in optically active semiconductor host materials have emerged as leading candidates for quantum information processing (QIP). The quantum nature of the spin allows for encoding of stationary, memory quantum bits (qubits), and the relatively weak interaction with the host material preserves the spin coherence. On the other hand, optically active host materials permit direct interfacing with light, which can be used for all-optical qubit manipulation, and for efficiently mapping matter qubits into photonic qubits that are suited for long-distance quantum communication.


Nominated by Stanford University, USA, as an outstanding Ph.D. thesis Demonstrates for the first time quantum entanglement between a single InAs quantum dot spin qubit and a single photonic qubit at telecommunication wavelengths Provides a key element for future quantum networks based on quantum repeaters and quantum teleportation techniques

Autor*in

Kristiaan De Greve

Themen in »Towards Solid-State Quantum Repeaters«

Electron Spins Geometric Phase Gates Hole Spin Qubits InAs Quantum Dot Electron Spins InAs Quantum Dots Quantum Dot Electron Spins Quantum Dot Spin Qubits Quantum Repeater System Quantum Repeaters Solid-state Quantum Repeaters Spin-photon Entanglement

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Details

ISBN: 9783319374963
Verlag: Springer International Publishing
Erscheinung: 23.08.2016

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