Double Photodetachment of F^–·H₂O: Experimental and Theoretical Studies of [F·H₂O]⁺

Abstract: Double photodetachment of the cluster F − •H 2 O in a strong laser field is explored in a combined experimental−theoretical study. Products are observed experimentally by coincidence photofragment imaging following double ionization by intense laser pulses. Theoretically, equation of motion coupled cluster calculations (EOM-CC), suitable for modeling strong correlation effects in the electronic wave function, shed light on the Franck−Condon region, and ab initio molecular dynamics simulations also performed us… Show more

“…In the experiments described here, a mixture of B200 PSI argon carrier gas, seeded by B5% of SF 6 sample gas was expanded into the source chamber and ionized by a pulsed circular electron gun that directs B200 eV electrons into the supersonically expanding gas, generating a variety of cation and anion species. [65][66][67][68][69] The supersonic expansion is skimmed by an 8 mm skimmer located 100 mm downstream of the pulsed valve. Such setup enables trapping very heavy molecules without analyzing magnet mass limit.…”

Simultaneous electrostatic trapping of merged cation & anion beams

“…In the experiments described here, a mixture of B200 PSI argon carrier gas, seeded by B5% of SF 6 sample gas was expanded into the source chamber and ionized by a pulsed circular electron gun that directs B200 eV electrons into the supersonically expanding gas, generating a variety of cation and anion species. [65][66][67][68][69] The supersonic expansion is skimmed by an 8 mm skimmer located 100 mm downstream of the pulsed valve. Such setup enables trapping very heavy molecules without analyzing magnet mass limit.…”

Simultaneous electrostatic trapping of merged cation & anion beams

Dissociative detachment of the fluoroformate anion

Dissociative photodetachment of H₃O₂⁻: a full-dimensional quantum dynamics study