To learn about spin-based quantum computing, I recommend the following books and resources:
"Quantum Computation and Quantum Information" by Michael A. Nielsen and Isaac L. Chuang: This comprehensive textbook covers various aspects of quantum computation, including spin-based quantum computing. It provides a solid foundation in quantum computing theory and covers spin systems, quantum gates, and algorithms.
"Quantum Computing: A Gentle Introduction" by Eleanor G. Rieffel and Wolfgang H. Polak: This book offers an accessible introduction to the principles of quantum computing, including spin-based systems. It covers basic concepts, quantum gates, quantum algorithms, and spin qubits.
"Spin Qubits: Fundamentals and Applications" by Charles Tahan (editor): This book focuses specifically on spin qubits and their applications. It provides an overview of the principles and challenges of spin-based quantum computing and explores various topics, including spin qubit architectures, control techniques, and error correction.
"Quantum Computing for Computer Scientists" by Noson S. Yanofsky and Mirco A. Mannucci: This book provides a computer science perspective on quantum computing and covers spin-based quantum systems. It explains the core principles of quantum computing and introduces spin qubits and their manipulation.
In addition to these books, you can explore research papers, articles, and online resources from scientific journals and reputable websites. The field of quantum computing is rapidly evolving, so staying updated with the latest research is essential. Online platforms like arXiv and the Quantum Computing Stack Exchange can be valuable sources of information and discussions related to spin-based quantum computing.