The Atomic Nucleus as a Relativistic SystemSpringer Science & Business Media, 20. 1. 2004 - Počet stran: 349 Relativity plays an important role in atomic nuclei, and, since the early 1970s, there has been increasing interest in, and literature on, the nucleus as a relativistic system. In fact, the relativistic treatment provides a powerful method to describe nuclear structure and reactions. It is thus an ideal time to collect and review the important landmarks in this book. Directed to advanced students and researchers, it explains both the underlying relativistic theory and compares predictions with actual experiments. |
Obsah
I | 1 |
II | 7 |
III | 8 |
IV | 11 |
V | 12 |
VI | 13 |
VIII | 14 |
X | 20 |
XLVIII | 201 |
XLIX | 203 |
L | 206 |
LI | 208 |
LII | 216 |
LIII | 219 |
LIV | 223 |
LV | 232 |
XI | 25 |
XII | 32 |
XIII | 39 |
XIV | 40 |
XVI | 48 |
XVII | 52 |
XVIII | 62 |
XIX | 64 |
XX | 67 |
XXI | 75 |
XXII | 80 |
XXIII | 82 |
XXIV | 89 |
XXV | 92 |
XXVI | 94 |
XXVII | 96 |
XXVIII | 99 |
XXIX | 101 |
XXX | 104 |
XXXI | 107 |
XXXII | 113 |
XXXIII | 122 |
XXXIV | 125 |
XXXV | 130 |
XXXVI | 137 |
XXXVII | 141 |
XXXVIII | 146 |
XXXIX | 148 |
XL | 154 |
XLI | 160 |
XLII | 165 |
XLIII | 173 |
XLIV | 175 |
XLV | 182 |
XLVI | 187 |
XLVII | 194 |
LVI | 239 |
LVII | 246 |
LVIII | 253 |
LIX | 261 |
LXI | 263 |
LXII | 266 |
LXIII | 267 |
LXIV | 268 |
LXV | 270 |
LXVI | 271 |
LXVII | 272 |
LXVIII | 274 |
LXIX | 276 |
LXX | 279 |
LXXI | 281 |
LXXII | 282 |
LXXIII | 284 |
LXXIV | 285 |
LXXV | 286 |
LXXVI | 289 |
LXXVII | 293 |
LXXVIII | 296 |
LXXIX | 297 |
LXXX | 299 |
LXXXI | 300 |
LXXXII | 302 |
LXXXIII | 304 |
LXXXIV | 305 |
LXXXV | 306 |
LXXXVI | 307 |
LXXXVII | 309 |
LXXXVIII | 318 |
| 323 | |
| 347 | |
Další vydání - Zobrazit všechny
The Atomic Nucleus as a Relativistic System Lev N. Savushkin,Hiroshi Toki Náhled není k dispozici. - 2010 |
The Atomic Nucleus as a Relativistic System Lev N. Savushkin,Hiroshi Toki Náhled není k dispozici. - 2014 |
Běžně se vyskytující výrazy a sousloví
A-isobar approach baryon binding energy calculations central potential Chap chiral symmetry considered contribution corresponding Coulomb coupling constants density density-dependent Dirac equation Dirac spinor effective mass electromagnetic exchange Fermi finite nuclei following form form factors framework g/cm³ given Hartree approximation Hartree-Fock interaction introduced isoscalar isospin isotopic isovector Lagrangian Lett mean-field approximation meson fields meson mass momentum neutron star NL-SH nonlinear nonrelativistic Nucl nuclear matter nuclear medium nuclear structure nuclear-matter nucleon nucleon-nucleon obtained operator parameter set particle Phys pion condensation problem properties of nuclear pseudoscalar pseudospin quantum numbers quark RBHF reason relativistic relativistic effects relativistic mean-field relativistic theory reproduce RMF theory role RPCM RRPA saturation scalar and vector scalar field scattering self-consistent self-energy self-interactions single-particle solution spin spin-orbit force spin-orbit splitting tensor vector fields vector meson Walecka model wave function σκ σο
Oblíbené pasáže
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