Quantum Entanglement has rapidly become a subject of great interest in academia, industry, and government research institutions. This book builds on the first edition of Fundamentals of Quantum Entanglement to provide a transparent and more insightful introduction for graduate students, scientists, and engineers. It is also a highly useful education tool for those practitioners that were not aware of the physical origin of quantum entanglement: the Dirac-Wheeler-Pryce-Ward physics. The new edition includes an expansion on topics such as quantum entropy and quantum time. The book provides a direct, practical, and transparent introduction to the principles and physics of quantum entanglement. It does so whilst utilizing an interferometric approach based on Dirac-Feynman superposition probability amplitudes.
Key Features:
Provides an overview of quantum entanglement at a basic level
Explains the philosophical origin of quantum entanglement as well as the physical origin
Presents the key equation for the probability amplitude for QE from three perspectives while emphasizing its interferometric derivation
Includes applications on Quantum Cryptography, Quantum Teleportation, Quantum Computing
Reviews the current technology of QE with an emphasis in space-to-space communications