✨ New Arrivals Just Dropped!Explore
$6.98
Original: $19.95
-65%Perturbation Theory and the Nuclear Many Body Problem—
$19.95
$6.98The Story
This introductory treatment begins with an overview of the basic ideas of perturbation theory, addressing the conditions under which the theory may be set up and the various forms of perturbation expansions. Subsequent chapters explore diagrammatic methods in terms of linked cluster theorem and general formulas as well as rearrangement methods. Techniques of solving the t-matrix equation and other equations that arise in the nuclear many body problem are examined in terms of approximate methods, and the intuitive reasoning behind each of them is given. The text's final chapter collects other methods of approaching the many body problem and shows how they may be compared with those of previous chapters.
Suitable for advanced undergraduates and graduate students, this volume features many helpful citations to literature on the subject, and a list of main symbols has been appended to each chapter for easy reference.
Suitable for advanced undergraduates and graduate students, this volume features many helpful citations to literature on the subject, and a list of main symbols has been appended to each chapter for easy reference.
Reprint of the North-Holland Publishing Company, Amsterdam, and Interscience Publishers, New York, 1962 edition.
non-fiction;books on science;science;quantum theory;physics;perturbation theory;diagrammatic methods;linked cluster theorem;rearrangement methods;solving the t-matrix equation;the nuclear many body problem;centre of mass;science and math;Perturbation Theory; Many-Body Problem; Nuclear Many-Body Problem; Green's Function; Brillouin-Wigner Series; Rayleigh-Schrodinger Series; Bethe-Goldstone equation; Brueckner approximation; Exclusion principle; Hartree-Fock condition; Pauli principleDescription
This introductory treatment begins with an overview of the basic ideas of perturbation theory, addressing the conditions under which the theory may be set up and the various forms of perturbation expansions. Subsequent chapters explore diagrammatic methods in terms of linked cluster theorem and general formulas as well as rearrangement methods. Techniques of solving the t-matrix equation and other equations that arise in the nuclear many body problem are examined in terms of approximate methods, and the intuitive reasoning behind each of them is given. The text's final chapter collects other methods of approaching the many body problem and shows how they may be compared with those of previous chapters.
Suitable for advanced undergraduates and graduate students, this volume features many helpful citations to literature on the subject, and a list of main symbols has been appended to each chapter for easy reference.
Suitable for advanced undergraduates and graduate students, this volume features many helpful citations to literature on the subject, and a list of main symbols has been appended to each chapter for easy reference.
Reprint of the North-Holland Publishing Company, Amsterdam, and Interscience Publishers, New York, 1962 edition.
non-fiction;books on science;science;quantum theory;physics;perturbation theory;diagrammatic methods;linked cluster theorem;rearrangement methods;solving the t-matrix equation;the nuclear many body problem;centre of mass;science and math;Perturbation Theory; Many-Body Problem; Nuclear Many-Body Problem; Green's Function; Brillouin-Wigner Series; Rayleigh-Schrodinger Series; Bethe-Goldstone equation; Brueckner approximation; Exclusion principle; Hartree-Fock condition; Pauli principle
