LASER-ABLATION OF TRP-GLY

We studied laser ablation of Trp-Gly under the same experimental condi tions used previously to successfully seed this fragile, nonvolatile d ipeptide into a molecular beam. A film of Trp-Gly was prepared on a br ass plate and laser ablated with 11 ns, 8 J/cm(2), 5320 Angstrom laser pulses. We found substantial fragmentation upon ablation and believe that immediate helium entrainment is necessary to prevent decompositio n. The velocity distribution is broader than a Boltzmann distribution, exhibits no flow velocity, and has a translational temperature T-t = 4200 K. The angular distribution is highly forward-peaked and bimodal with a major component proportional to cos(41) theta. When laser ablat ed under identical conditions, tryptamine has a similar angle velocity distribution and also shows significant fragmentation. Analysis of it s mass spectrum yields an internal temperature T-i = 660 K. Existing c ollisional models cannot explain the measured angle velocity distribut ions. They may result from the pulsed nature of the expansion and the finite focused laser spot size.