
This Book Is Aimed At Providing A Coherent, Essentially Self-contained, Rigorous And Comprehensive Abstract Theory Of Feynman's Operational Calculus For Noncommuting Operators. Although It Is Inspired By Feynman's Original Heuristic Suggestions And Time-ordering Rules In His Seminal 1951 Paper An Operator Calculus Having Applications In Quantum Electrodynamics, As Will Be Made Abundantly Clear In The Introduction (chapter 1) And Elsewhere In The Text, The Theory Developed In This Book Also Goes Well Beyond Them In A Number Of Directions Which Were Not Anticipated In Feynman's Work. Hence, The Second Part Of The Main Title Of This Book. The Basic Properties Of The Operational Calculus Are Developed And Certain Algebraic And Analytic Properties Of The Operational Calculus Are Explored. Also, The Operational Calculus Will Be Seen To Possess Some Pleasant Stability Properties. Furthermore, An Evolution Equation And A Generalized Integral Equation Obeyed By The Operational Calculus Are Discussed And Connections With Certain Analytic Feynman Integrals Are Noted. This Volume Is Essentially Self-contained And We Only Assume That The Reader Has A Reasonable, Graduate Level, Background In Analysis, Measure Theory And Functional Analysis Or Operator Theory. Much Of The Necessary Remaining Background Is Supplied In The Text Itself.
This book investigates the construction of a rigorous, abstract mathematical framework for Feynman's operational calculus applied to noncommuting operators. The authors, Gerald W. Johnson, Lance Nielsen, and Michel L. Lapidus, leverage their expertise in functional analysis to formalize heuristic concepts originally proposed by Richard Feynman in 1951. By extending these initial time-ordering rules, the text provides a comprehensive mathematical foundation that addresses both the algebraic and analytic properties of the calculus.
What You Will Find
Scope Limits
Experts recognize this volume as a definitive, self-contained reference for researchers working at the intersection of operator theory and quantum electrodynamics. Readers frequently note the high level of technical density, which necessitates a strong foundation in advanced analysis to fully grasp the formal proofs presented.
Page Count:
368
Publication Date:
2015-01-01
Publisher:
Oup Oxford
ISBN-10:
0191006874
ISBN-13:
9780191006876
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