"Through eight chapters, he introduces basic concepts of causality, randomness, locality, and probability. There is some advanced mathematics, a reference section, and a helpful index. Summing Up: Recommended. Graduate students and faculty." (N. Sadanand, Choice, Vol. 54 (9), May, 2017)
Introduction.- Foundational and Principle Thinking in Fundamental Physics, from Riemann to Einstein to Heisenberg.- Bohr, Heisenberg, Schrödinger, and the Physical, Mathematical, and Philosophical Nature of Quantum Mechanics.- Complementarity as a Concept, a Principle, and an Interpretation of Quantum Mechanics: Niels Bohr and the Philosophical Architecture of Quantum Theory.- Reality, Causality, and Probability in Classical, Relativistic, and Quantum Physics.- The Principles of Quantum Theory, Dirac's Equation, and Quantum Information.- “Who Thinks Abstractly?”: Quantum Theory and the Architecture of Physical Concepts.- The Art and Science of Experimentation in Quantum Physics.
The book considers foundational thinking in quantum theory, focusing on the role the fundamental principles and principle thinking there, including thinking that leads to the invention of new principles, which is, the book contends, one of the ultimate achievements of theoretical thinking in physics and beyond. The focus on principles, prominent during the rise and in the immediate aftermath of quantum theory, has been uncommon in more recent discussions and debates concerning it. The book argues, however, that exploring the fundamental principles and principle thinking is exceptionally helpful in addressing the key issues at stake in quantum foundations and the seemingly interminable debates concerning them. Principle thinking led to major breakthroughs throughout the history of quantum theory, beginning with the old quantum theory and quantum mechanics, the first definitive quantum theory, which it remains within its proper (nonrelativistic) scope. It has, the book also argues, been equally important in quantum field theory, which has been the frontier of quantum theory for quite a while now, and more recently, in quantum information theory, where principle thinking was given new prominence. The approach allows the book to develop a new understanding of both the history and philosophy of quantum theory, from Planck’s quantum to the Higgs boson, and beyond, and of the thinking the key founding figures, such as Einstein, Bohr, Heisenberg, Schrödinger, and Dirac, as well as some among more recent theorists. The book also extensively considers the nature of quantum probability, and contains a new interpretation of quantum mechanics, “the statistical Copenhagen interpretation.” Overall, the book’s argument is guided by what Heisenberg called “the spirit of Copenhagen,” which is defined by three great divorces from the preceding foundational thinking in physics—reality from realism, probability from causality, and locality from relativity—and defined the fundamental principles of quantum theory accordingly.