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Palacios-Berraquero C. Quantum Confined Excitons in 2-Dimensional Materials

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Palacios-Berraquero C. Quantum Confined Excitons in 2-Dimensional Materials
Springer, 2018. — 125 p. — (Springer Theses). — ISBN-10 3030014819.
This book presents the first established experimental results of an emergent field: 2-dimensional materials as platforms for quantum technologies, specifically through the optics of quantum-confined excitons. It also provides an extensive review of the literature from a number of disciplines that informed the research, and introduces the materials of focus – 2d Transition Metal Dichalcogenides (2d-TMDs) – in detail, discussing electronic and chemical structure, excitonic behaviour and response to strain. This is followed by a brief overview of quantum information technologies, including concepts such as single-photon sources and quantum networks. The methods chapter addresses quantum optics techniques and 2d-material processing, while the results section shows the development of a method to deterministically create quantum dots (QDs) in the 2d-TMDs, which can trap single-excitons; the fabrication of atomically thin quantum light-emitting diodes to induce all-electrical single-photon emission from the QDs, and lastly, the use of devices to controllably trap single-spins in the QDs –the first step towards their use as optically-addressable matter qubits.
Table of contents
Introduction: 2d-Based Quantum Technologies
Experimental Techniques
Deterministic Arrays of Single-Photon Sources
Atomically-Thin Quantum Light Emitting Diodes
2d Quantum Light-Matter Interfaces
Conclusions and Outlook
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