
Professor Sir Roger Penrose's work, spanning fifty years of science, with over five thousand pages and more than three hundred papers, has been collected together for the first time and arranged chronologically over six volumes, each with an introduction from the author. Where relevant, individual papers also come with specific introductions or notes.Among the new developments that occurred during this period was the introduction of a particular notion of 'quasi-local mass-momentum and angular momentum', the topic of Penrose's Royal Society paper. Many encouraging results were initially obtained but, later, difficulties began to emerge and remain today. Also, an extensive paper (with Eastwood and Wells) gives a thorough account of the relation between twistor cohomology and massless fields. This volume witnesses Penrose's increasing conviction that the puzzling issue of quantum measurement could only be resolved by the appropriate unification of quantum mechanics with general relativity, where that union must involve an actual change in the rules of quantum mechanics as well as in space-time structure. Penrose's first incursions into a possible relation between consciousness and quantum state reduction are also covered here.
This volume investigates the theoretical intersection of quantum mechanics and general relativity, specifically addressing the unresolved challenges of quantum measurement and the potential physical basis of consciousness. Roger Penrose, a preeminent mathematical physicist, provides a curated selection of his research papers from a pivotal period in his career. The text serves as a technical record of his evolving hypotheses regarding space-time structure, twistor theory, and the necessity of modifying quantum mechanical rules to achieve a unified physical theory.
What You Will Find
Experts recognize this collection as a primary source for understanding the development of Penrose's specific contributions to modern physics. Readers frequently note the high level of mathematical and conceptual density, making this volume most suitable for researchers and students familiar with advanced theoretical physics.
Page Count:
885
Publication Date:
2010-02-01
Publisher:
Oxford University Press
ISBN-10:
0199219397
ISBN-13:
9780199219391
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