Negative ion forration by attachment of electrons to radicals studied by ion cyclotron resonance spectrometry

he photodetachment of electrons from gaseous SH-ions has beerr studied in an ion cyclotron resonance mass spectrometer using a flashlamp-pumped organic dye laser as a light source. qe onset of the photodehchment process at 538.7 f 0.3 nm (2.3016 \* 0.0013 eV, 18563 r lb c-m-l) agrees well with that

Trapped ion cyclotron resonance spectroscopy has beer. used for the fist time to study the electron impact dissociation of ions. Fragmentation of CeHsCN+ to produce ChH$ and HCN is observed to occur at low electron energies (3-9 cV). The extent of dissociation is observed to be linear in emission cu

## Appearance energies of [MÀH] À ions from carbonyl compounds R-CO-R' (R,R' = H, CH 3 , NH 2 , OH) have been measured by means of negative ion mass spectrometry in resonant electron capture mode. Values of electron affinity of the corresponding radicals, CH 2 =C(X)O, NH=C(X)O and O=C(X)O, have be

Silica clusters were produced by laser vaporizatian of three difierent silica compounds and the ionized species were analysed by using Fourier transform ion cyclotron resonance mass spectrometry. Using a wavelength of 248 nm, negativeion mass spectra of E2, Merck and Stober's silica showed different