1: Introduction
2: Disentangling: Definitions, Properties and Elementary
Examples
3: Disentangling via Tensor Products and Ordered Supports
4: Extraction of Multilinear Factors and Iterative
Disentangling
5: Auxiliary Operations and Disentangling Algebras
6: Time-Dependent Feynman's Operational Calculus and Evolution
Equations
7: Stability Properties of Feynman's Operational Calculi
8: Disentangling via Continuous and Discrete Measures
9: Derivational Derivatives and Feynman's Operational Calculi
10: Spectral Theory for Noncommuting Operators
11: Epilogue: Miscellaneous Topics and Possible Extensions
Gerald W. Johnson is Emeritus Professor of Mathematics University
of Nebraska, Lincoln.
Michel Lapidus is Professor of Mathematics at the University of
California, Riverside Lance Nielsen is Professor of Mathematics in
the Department of Mathematics, Creighton University.
"[D]istinguished by an obvious love for [the] subject on the part
of the authors, making for expansive explanations, excursions into
physics and its history..." --MAA Reviews
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