Quantum Optoelectronics - Ward, Kebra
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Fundamentals of Quantum Optoelectronics: Provide an overview of the basic principles of quantum optoelectronics, including quantum mechanics, wave-particle duality, and the interaction of light with matter. Introduce key concepts such as quantum states, entanglement, and quantum coherence. Quantum Light Sources: Discuss various quantum light sources, including single-photon sources, quantum dots, and laser diodes. Explore their operational principles, performance characteristics, and applications in quantum communication and computing. Quantum Optics and Devices: Explore the principles and…mehr

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Produktbeschreibung
Fundamentals of Quantum Optoelectronics: Provide an overview of the basic principles of quantum optoelectronics, including quantum mechanics, wave-particle duality, and the interaction of light with matter. Introduce key concepts such as quantum states, entanglement, and quantum coherence. Quantum Light Sources: Discuss various quantum light sources, including single-photon sources, quantum dots, and laser diodes. Explore their operational principles, performance characteristics, and applications in quantum communication and computing. Quantum Optics and Devices: Explore the principles and applications of quantum optics, including quantum interference, quantum measurement, and the use of optoelectronic devices such as photodetectors and modulators in quantum systems. Quantum Information Processing: Examine how quantum optoelectronics is used in quantum information processing, including quantum computing, quantum cryptography, and quantum teleportation. Discuss the role of quantum optoelectronic devices in encoding, transmitting, and decoding quantum information. Applications in Communication and Sensing: Explore the applications of quantum optoelectronics in communication and sensing technologies. Discuss advancements in quantum communication networks, quantum key distribution, and quantum-enhanced sensors for precise measurements.