TY  - BOOK
AU  - Schunck,Nicolas
ED  - Institute of Physics (Great Britain),
TI  - Energy density functional methods for atomic nuclei
T2  - [IOP release 6]
SN  - 9780750314220
AV  - QC793.3.S8 E544 2019eb
U1  - 539.7/4 23
PY  - 2019///]
CY  - Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK)
PB  - IOP Publishing
KW  - Nuclear structure
KW  - Nuclear reactions
KW  - Density functionals
KW  - Nuclear physics
KW  - bicssc
KW  - SCIENCE / Physics / Nuclear
KW  - bisacsh
N1  - "Version: 20190101"--Title page verso; Includes bibliographical references; 1. Non-relativistic energy density functionals -- 1.1. Introduction -- 1.2. Energy density functional kernels -- 1.3. Pairing and Coulomb functionals; 2. Covariant energy density functionals -- 2.1. Relativistic description of quantum systems -- 2.2. Symmetry properties of QCD -- 2.3. Effective Lagrangians for nuclear systems -- 2.4. Phenomenological Lagrangians -- 2.5. Derivation of the covar; 3. Single-reference and multi-reference formulations -- 3.1. Single-reference implementation of nuclear energy density functionals -- 3.2. Multi-reference implementation of nuclear energy density functionals; 4. Time-dependent density functional theory -- 4.1. Time evolution equations -- 4.2. Role of pairing correlations in nuclear dynamics -- 4.3. Local DFT for superfluids -- 4.4. Validation of the TDSLDA : the unitary Fermi gas -- 4.5. Symmetry-bre; 5. Small-amplitude collective motion -- 5.1. RPA with a Hamiltonian -- 5.2. RPA in density functional theory -- 5.3. Sum rules -- 5.4. Pairing correlations and QRPA formalism -- 5.5. Charge-changing QRPA; 6. Large-amplitude collective motion -- 6.1. Collective subspace -- 6.2. Adiabatic time-dependent Hartree-Fock theory -- 6.3. Adiabatic self-consistent collective coordinate method -- 6.4. Gaussian overlap approximation of the GCM; 7. Finite temperature -- 7.1. A reminder of statistical quantum mechanics -- 7.2. Finite-temperature Hartree-Fock theory -- 7.3. Finite-temperature Hartree-Fock-Bogoliubov theory -- 7.4. Finite-temperature RPA -- 7.5. Beyond mean field; 8. Numerical implementations -- 8.1. Configuration space and basis expansions -- 8.2. Lattice techniques -- 8.3. The self-consistent loop -- 8.4. Time-evolution algorithms; 9. Calibration of energy functionals -- 9.1. Parameters of energy functionals -- 9.2. Physical observables -- 9.3. Uncertainties of EDF parameters -- 9.4. Propagation of theoretical uncertainties; PhD students, postdocs and research staff specializing in nuclear theory; Also available in print
N2  - Energy density functional (EDF) approaches have become over the past twenty years a powerful framework to study the structure and reactions of atomic nuclei. This book gives an updated presentation of non-relativistic and covariant energy functi
UR  - https://ezproxy.mef.edu.tr/login?url=https://iopscience.iop.org/book/978-0-7503-1422-0
ER  -