Zero-kinetic-energy photoelectron spectroscopy of Ar(2p)-excited argon clusters

Fluorescence of argon and argon clusters is investigated in the Ar( 2p)excitation regime (240-310 eV). Pluorescence excitation spectroscopy shows a different evolution as a function of the average neutral cluster size compared with total electron and ion yields as well as partial ion yields of mass-

The I,-Ar van der Waals complex has been studied using two-colour (2 + 1') zero kinetic energy pulsed field ionisation spectroscopy. The ['I13,Jc 7s; 1, and the [2rI,,2]c 7s; 0: Rydberg states were used as resonant intermediate states for ionisation into the R ZlXs,2.8 and 2 2II1,2S p s in-orbit ion

The pulsed-field ionization (PFI) zero-kinetic-energy (ZEKE) photoelectron spectra of Ar(2) were measured between 117 000 cm(-1) (14.5 eV) and 128 300 cm(-1) (15.9 eV) using the penetrating field technique and synchrotron radiation at resolutions of up to 1 meV. The A(2)Sigma(+)(1/2u) ground state a

We use high-resolution "zero kinetic energy photoelectron spectroscopy (ZEKE PES)" with two-colour two-photon resonant ionization for the investigation of the benzene-argon van der Waals complex in a supersonic skimmed jet. The ZEKE PE spectrum shows only a single peak of s 8 cm-' fwhm. We conclude

The naphthalene-Ar van der Waals complex formed in a supersonic jet expansion was studied. Mass-selected multiphoton ionization and zero kinetic energy (ZEKE) photoelectron spectra obtained in the two-color (1 + 1') ionization scheme are reported. The SI-S 0 %o transition in the complex is red-shift