A01=Aksel S. Jensen
A01=Asksel S. Jensen
A01=Philip J. Siemens
advanced nuclear physics
Aksel Stenholm Jensen
Angular Momentum
Author_Aksel S. Jensen
Author_Asksel S. Jensen
Author_Philip J. Siemens
Category=PHM
collective nuclear motion
Differential Cross Section
energy
Energy Density
eq_bestseller
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
eq_science
excitation
Fermi Gas Model
Field Picture
Fission Barrier
function
graduate physics textbook
Heavy Ion Collisions
independent
Independent Particle Model
Intrinsic Angular Momentum
kinetic
Liquid Drop Model
many-body quantum systems
matter
model
nuclear
nuclear force interactions
Nuclear Matter
nuclear shell structure
Odd Mass Nuclei
Odd Nuclei
Orbital Angular Momentum
particle
Philip John Siemens
Radial Wave Function
Rest Energy
Rotational Bands
Separation Energy
Single Particle Energies
Single Particle Orbits
Single Particle Wave Functions
strong interaction theory applications
Total Angular Momentum
Unpaired Nucleon
wave
Wave Function
Woods Saxon Potential
Product details
- ISBN 9780367091439
- Weight: 870g
- Dimensions: 152 x 229mm
- Publication Date: 07 Jun 2019
- Publisher: Taylor & Francis Ltd
- Publication City/Country: GB
- Product Form: Hardback
Secure
checkout
Fast Shipping
Easy returns
In the present volume, Phillip J. Siemens, who has been a seminal contributor to our understanding of the nucleus as a many-body system, and his able collaborator, Aksel S. Jensen, introduce graduate students and colleagues in other fields to the basic concepts of nuclear physics in a way which connects clearly the methods of nuclear physics with those of condensed matter, atomic, and particle physics. Their book thus provides a lucid introduction to the key facts and concepts of nuclei, including many of the most recent developments, while emphasizing the similarities and the differences between the behavior of nuclei, atoms, elementary particles, and condensed matter, It should thus prove useful, not only as a text for an introductory graduate course in nuclear physics, but as a reference book for all scientists interested in a unified picture of our understanding of physical phenomena associated with many-body systems.
Philip John Siemens, Dept of Physics, Univeristy of Tennesse, Texas A&M University, USA. Asksel Stenholm Jensen, Institute of Physics, University of Aarhus, Denmark.
