Quantum Mechanics for Hamiltonians Defined as Quadratic Forms
Foundations of Quantum Mechanics and New Mathematical Results
Format:Paperback
Publisher:Princeton University Press
Published:16th Feb '15
Currently unavailable, and unfortunately no date known when it will be back
This paperback is available in another edition too:
- Hardback£118.00(9780691647104)
This book provides a detailed exploration of the mathematical foundations of n-body Schrödinger mechanics, offering significant new insights. Quantum Mechanics for Hamiltonians Defined as Quadratic Forms is a vital resource for scholars.
This monograph offers a comprehensive introduction to the mathematical foundations of n-body Schrödinger mechanics, presenting new results that expand upon existing theories. The author delves into the intricacies of quantum mechanics, specifically focusing on Hamiltonians defined as quadratic forms. By exploring these concepts, the book aims to provide readers with a solid understanding of the mathematical techniques essential for studying quantum systems.
Originally published in 1971, Quantum Mechanics for Hamiltonians Defined as Quadratic Forms has been reissued by the Princeton Legacy Library. This initiative employs advanced print-on-demand technology to reintroduce previously out-of-print works, ensuring that valuable scholarly resources remain accessible. The reprints maintain the integrity of the original texts, allowing new generations of readers to engage with the foundational ideas presented by the author.
The Princeton Legacy Library's mission is to enhance access to the extensive academic heritage represented in the thousands of books published by Princeton University Press since its inception in 1905. By making important works like Quantum Mechanics for Hamiltonians Defined as Quadratic Forms available again, the library fosters a deeper appreciation for the history and development of mathematical physics, while also inspiring future research in the field.
ISBN: 9780691620329
Dimensions: unknown
Weight: 454g
262 pages