1. Fundamental concepts; 2. Quantum dynamics; 3. Theory of angular momentum; 4. Symmetry in quantum mechanics; 5. Approximation methods; 6. Scattering theory; 7. Identical particles; 8. Relativistic quantum mechanics; Appendix A. Electromagnetic units; Appendix B. Elementary solutions to Schrödinger's wave equation; Appendix C. Hamiltonian for a charge in an electromagnetic field; Appendix D. Proof of the angular-momentum addition rule (3.8.38); Appendix E. Finding Clebsch–Gordan coefficients; Appendix F. Notes on complex variables.
A comprehensive and engaging textbook, providing a graduate-level, non-historical, modern introduction of quantum mechanical concepts.
J. J. Sakurai was a noted theorist in particle physics and Professor of Physics at UCLA (1970–1982) and University of Chicago (1964–1970). He received his Ph.D. from Cornell University, New York in 1958. He contributed greatly to the field of particle physics before passing away at the age of 49 in 1982, while he was visiting CERN in Geneva. In addition he had held visiting staff appointments at the California Institute of Technology, Universities of Tokyo and Nagoya, University of Paris d'Orsay, Scuola Normale Superiore at Pisa, Stanford Linear Accelerator, CERN at Geneva, and Max Planck Institute at Munich. He was a Sloan Fellow (1962–1966), Fellow of the American Physical Society (1964–1982), a Guggenheim Fellow (1975–1976) and a von Humboldt Fellow (1981–1982). Jim Napolitano is Professor of Physics and Department Chair at the College of Science and Technology, Temple University. He is an experimental nuclear physicist, with over 320 articles published in refereed journals and an h-index of 81. He shared in the 2016 Breakthrough Prize in Fundamental Physics and currently works on experiments using parity violating electron scattering. An innovative educator, he has developed coursework and curricula at Rensselaer Polytechnic Institute and Temple University. In all cases, his teaching and instructional development make use of modern techniques. Professor Napolitano has also published textbooks on quantum mechanics, experimental physics, and using Mathematica for physics.
'A truly wonderful introduction to quantum mechanics. Sakurai's
original text was elegant, simple, and full of insight. It taught
me much as a graduate student. Napolitano's update adds context
with applications from today's research, explained simply and
beautifully. The problems are exceptionally well chosen. This book
can be used for graduate quantum courses from one quarter to a year
in length, in physics, materials science, or even physical
chemistry.' Kieron Burke, University of California-Irvine
'I have enjoyed teaching graduate quantum mechanics from J. J.
Sakurai's book since its first publication in 1985, specially the
first four chapters Sakurai completed before his untimely
departure. As co-author, Jim Napolitano has reorganized and
expanded the book, incorporating new topics of current interest,
while keeping Sakurai's pedagogical vision. The product is quite
appealing, impressive, and befits a 21st-century perspective.'
Michael El-Batanouny, Boston University
'Years ago, upon reading J. J. Sakurai's Modern Quantum Mechanics,
I was immediately inspired to write my own textbook – one that
takes a similar approach to Sakurai's graduate-level book, but for
undergraduates. I am delighted that Jim Napolitano has successfully
taken on the challenge of bringing Sakurai's textbook up to date,
in keeping with the book's title.' John S. Townsend, Harvey Mudd
College
'This textbook does an excellent job of bridging the fundamentals
of quantum mechanics and topics at the frontier of modern physics.
It is comprehensive, authoritative, and rich in pedagogical
innovations. New materials included in the current version make
this textbook especially suitable for students who wish to engage
in cutting-edge experimental and theoretical research.' Jinjun Liu,
University of Louisville
'Napolitano has modernized Sakurai's classic textbook with more
applications, such as, K-G field and spontaneous emission. These
expansions highlight the important advance in modern physics, while
two main features of this classical book are well kept, including a
logical and accessible approach to the field, and a concise and
consistent Dirac notation throughout the book.' Xiaoyan Shi,
University of Texas, Dallas
'The strength of this fine text is its unified point of view:
quantum mechanics is about operations on state vectors, described
using the bra and ket notation. This approach is rather abstract,
but once a student grasps the central ideas, it is simple and
powerful.' Davison Soper, University of Oregon
'Sakurai's text provides an understanding of quantum mechanics
firmly founded on Dirac formalism and linear algebra. It has
deservedly become a classic introductory graduate text, one that
helps the student start to think as a practitioner. In the new
editions, Napolitano has pedagogically filled in gaps in the
exposition and topical coverage, while maintaining the crisp and
insightful presentation of the original.' Mark Caprio, University
of Notre Dame
'Theoretical particle physics students may find this book well
oriented to their needs … this book can be well recommended as an
intermediate text … It is a worthy memorial to a much-appreciated
scientist.' Peter J. Bussey, Contemporary Physics
'The new edition looks great for this classic text. I used it
during my undergrad and grad years and it still is the go-to text
whenever I need brush up any concept on QM. The expanded Chapter-7
on Identical Particles is a worthy update.' Fahim Ahmed, Central
Michigan University
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