Semiconductor Quantum Light Sources 1st Edition

Capture the frontier of quantum photonics with Semiconductor Quantum Light Sources, 1st Edition by Peter Michler and Simone Luca Portalupi — an essential resource for anyone working in quantum optics, nanophotonics, or semiconductor physics. This authoritative guide delivers clear explanations of single-photon and entangled-photon generation from semiconductor platforms, blending rigorous theory with practical insight drawn from leading laboratory research.

Explore how quantum dots, micropillars, waveguides, and other semiconductor structures are engineered to produce bright, coherent, and on-demand quantum light. The book walks readers through device physics, fabrication considerations, characterization techniques, and the role of decoherence and photon indistinguishability — all presented in a way that bridges graduate-level coursework and hands-on R&D. Rich with real-world examples and up-to-date experimental results, it’s tailored for researchers, optical engineers, and advanced students aiming to design scalable quantum light sources for quantum communication, computing, and sensing.

Ideal for university libraries and technology teams across North America, Europe, and Asia, this 1st Edition is both a teaching text and a professional reference that supports innovation in quantum information science. Whether you’re developing single-photon emitters for secure communications or integrating quantum light into photonic circuits, Michler and Portalupi offer the depth and clarity needed to move from concept to implementation.

Add Semiconductor Quantum Light Sources to your collection to gain a comprehensive, practical foundation in semiconductor-based quantum emitters — a smart investment for advancing research and product development in the rapidly growing field of quantum technologies.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.