High-resolution electron-ion coincidence spectroscopy of ethanol in intense laser fields

Abstract

High-resolution electron-ion coincidence spectroscopy is used to (i) map correlations between electrons and ions from atomlike ionization of ethanol by intense 400 and 800 nm light pulses and (ii) disentangle the effects of dissociative multiphoton (MPI) and tunneling (TI) ionization. Electron spectra correlated with Cⁿ⁺ (n=1,2,3) exhibit a continuum structure with a high-energy tail due to inelastic collisions involving rescattered electrons following TI, while those correlated with C₂H_nO⁺ have structure characteristic of MPI and above-threshold ionization.