Atomic and Molecular Beams: The State of the Art 2000Roger Campargue Springer Science & Business Media, 25.01.2001 - 998 Seiten Atomic and Molecular Beams covers the state of the art in this field both theoretically and experimentally. With many contributions from leading researchers, including several Nobel laureates, this book will serve as a long lasting source of reference on all aspects of fundamental research into or using atomic and molecular beams. The topics covered in this volume include amongst others laser cooling and manipulation of atoms and molecules, alignment, relaxation and condensation in supersonic jets, photodissociation, spectroscopy and state imaging in beams, dynamics of elementary molecular collisions, production and properties of clusters and nanoparticles and beam interactions with surfaces. |
Inhalt
II | 3 |
III | 41 |
IV | 43 |
V | 63 |
VI | 81 |
VII | 95 |
VIII | 105 |
IX | 113 |
L | 555 |
LI | 579 |
LII | 591 |
LIV | 599 |
LV | 613 |
LVII | 615 |
LVIII | 623 |
LIX | 637 |
X | 133 |
XI | 145 |
XII | 161 |
XIII | 175 |
XIV | 183 |
XV | 195 |
XVI | 207 |
XVII | 209 |
XVIII | 237 |
XIX | 253 |
XX | 263 |
XXIII | 273 |
XXIV | 283 |
XXV | 295 |
XXVI | 307 |
XXVIII | 315 |
XXIX | 317 |
XXXII | 331 |
XXXIII | 343 |
XXXIV | 353 |
XXXVII | 379 |
XXXVIII | 393 |
XXXIX | 405 |
XL | 413 |
XLI | 415 |
XLIII | 477 |
XLV | 485 |
XLVI | 497 |
XLVII | 519 |
XLVIII | 529 |
XLIX | 543 |
LX | 647 |
LXI | 657 |
LXIII | 667 |
LXIV | 683 |
LXV | 693 |
LXVI | 701 |
LXVII | 709 |
LXVIII | 721 |
LXIX | 723 |
LXX | 755 |
LXXI | 775 |
LXXII | 793 |
LXXV | 805 |
LXXVI | 815 |
LXXVII | 827 |
LXXVIII | 839 |
LXXX | 847 |
LXXXI | 849 |
LXXXII | 873 |
LXXXIII | 887 |
LXXXIV | 901 |
LXXXV | 909 |
LXXXVII | 917 |
LXXXVIII | 933 |
XC | 944 |
XCI | 957 |
XCIV | 969 |
XCV | 971 |
XCVI | 985 |
991 | |
Andere Ausgaben - Alle anzeigen
Atomic and Molecular Beams: The State of the Art 2000 Roger Campargue Keine Leseprobe verfügbar - 2012 |
Häufige Begriffe und Wortgruppen
absorption alignment angle angular argon atom optics atomic beam axis band bond calculations Chem chemical chemisorption cluster collision complex cooling corresponding cross section density dependence desorption detection diffraction dimer dissociation droplets dynamics electron emission excited expansion experimental experiments femtochemistry Figure fluorescence formation fragments free jet frequency function gas phase helium nanodroplets Herschbach hydrogen impact intensity interaction ionization kinetic energy laser cooling Lett levels magnetic mass mass spectrometer measured molecular beam molecules momentum monomer motion neutral nozzle O(¹D observed obtained optical parameters particles peak photodissociation photolysis photon Phys plasma polarization potential potential energy surface pressure probe pulse pump quantum reaction reaction coordinate region relaxation REMPI resolution resonance rotational scattering shown in Fig signal solvated species spectra spectroscopy spectrum structure superfluid supersonic surface technique temperature tion transition translational energy trap values velocity vibrational wave packet wavelength Zewail