Advances in Atomic, Molecular, and Optical Physics, Volume 35
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"This volume maintains the authoritative standards of the series...The editors and publishers are to be congratulated"
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Experiment and Theory
Chapter 3 Ionization Dynamics in Strong Laser Fields
Chapter 4 Infrared Spectroscopy of Size Selected Molecular Clusters
Chapter 5 Femtosecond Spectroscopy of Molecules and Clusters
Chapter 6 Calculation of Electron Scattering on Hydrogenic Targets
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absorption amplitudes angular momentum approximation atomic beam Baumert Bray Buck calculations CCC method CH3Cl CH3F Chem cluster physics clusters collisional collisions configuration continuum contributions cooling coupling cross-section decay rate dependence detuning dimer dipole discussed distribution dynamics effect electron energy transfer equation excited experimental experiments femtosecond frequency fullerenes Hamiltonian helium Huisken hydrogen interaction isomers kinetic energy laser cooling laser pulses Lett measured mechanism methanol molecular molecules negative-energy no-pair observed obtained optical oscillator parameters peak perturbation theory photon Phys physical polarization polyatomic population potential principal pathways probe laser problem pump R-matrix range reduced matrix rescattering resonance rotational scattering Section shift shown in Fig shows SiH4 sodium species spectra spectroscopy spectrum spontaneous emission Stelbovics structure symmetry target techniques temperature theoretical thermal time-resolved transient transition amplitudes trap trap-loss V-swap velocity vibrational wave function wavelength wavepacket Zewail