Photoelectron Spectroscopy: Principles and ApplicationsSpringer Science & Business Media, 08.04.2003 - 662 Seiten The author, S. Hüfner, presents an authoritative and up-to-date introduction to the field by comprehensively treating the electronic structures of atoms, molecules, solids, and surfaces. Brief descriptions are given of inverse photoemission, spin-polarized photoemission and photoelectron diffraction. Experimental aspects are considered throughout the third edition book and the results are carefully interpreted in terms of the theory. A wealth of measured data is presented in tabulator form for easy use by experimentalists. The reader will learn about the basic technique of photoemission spectroscopy and obtain the necessary background for work based on this book. |
Inhalt
I | 1 |
II | 9 |
III | 14 |
IV | 20 |
V | 27 |
VI | 39 |
VII | 51 |
VIII | 61 |
XXXI | 337 |
XXXIII | 339 |
XXXIV | 347 |
XXXV | 364 |
XXXVI | 377 |
XXXVII | 391 |
XXXVIII | 401 |
XL | 403 |
IX | 63 |
X | 69 |
XI | 109 |
XII | 110 |
XIII | 130 |
XIV | 148 |
XV | 152 |
XVI | 173 |
XVII | 181 |
XVIII | 187 |
XIX | 201 |
XX | 205 |
XXI | 206 |
XXII | 208 |
XXIII | 215 |
XXIV | 216 |
XXV | 219 |
XXVI | 226 |
XXVII | 227 |
XXVIII | 276 |
XXIX | 307 |
XXX | 314 |
XLI | 405 |
XLII | 408 |
XLIII | 443 |
XLIV | 481 |
XLV | 489 |
XLVI | 491 |
| 499 | |
XLVIII | 515 |
XLIX | 521 |
L | 537 |
LI | 541 |
LII | 546 |
| 549 | |
LIV | 561 |
LV | 572 |
LVI | 583 |
LVII | 587 |
| 593 | |
LIX | 605 |
LX | 612 |
Andere Ausgaben - Alle anzeigen
Photoelectron Spectroscopy: Principles and Applications Stephan Hüfner Eingeschränkte Leseprobe - 2013 |
Häufige Begriffe und Wortgruppen
analysis approximation atom Auger band structure binding energy bonding Brillouin zone bulk calculated compounds conduction band configuration core-level crystal curves d band density diagram direct transitions dispersion EDCs Ekin electronic structure energy levels EXAFS excitation experiment experimental Fermi energy Fermi surface final final-state free electron G.K. Wertheim given in Fig gives high-temperature superconductors Hüfner indicated initial insulator Intensity arb interaction IPES kinetic energy lattice layer Lett ligand main line matrix element measured molecule momentum normal emission observed obtained one-electron optical orbital peak photoelectron photoemission spectra photoemission spectroscopy photoexcited photoionization photon energy Phys plane plasmon polarization radiation resolution resonance sample satellite scattering screening shift shown in Fig shows Solid State Commun spectroscopy spin spin-orbit surface normal temperature theory transition metal vacuum level valence band VB VB vibrational wave function wave vector width XPS spectrum