Direct-drive, hollow-shell implosion studies on the 60-beam, UVOMEGA lasersystem

Direct-drive implosion experiments have been performed on the University of Rochester's 60-beam, 30 kJ, UV (351 nm) OMEGA [T. R. Boehly , Opt. Commun. 133, 495 (1997)] laser system to investigate the conditions at maximum com pression of polymer-shell targets with zero- or low-pressure (less than or equal to 3 atm) gas fills. By using deuterium-bearing shells (CD), the impl oded-core conditions have been diagnosed with both x-ray and neutron spectr al measurements. The core electron temperature (kT(e)) and shell areal dens ity (rho R-shell) are determined from the emergent x-ray spectrum, while in dependent inferences of rho R-shell are obtained from the measured primary (DD) and secondary (DT) neutron yields. Target performance was investigated for a range of beam-smoothing conditions [none to 0.25 THz-bandwidth smoot hing by spectral dispersion along two dimensions (2-D SSD)] and a set of pu lse shapes (1 ns square pulse to a 2.5 ns pulse with a 1:40 foot-to-main-pu lse power ratio). The results have conclusively demonstrated the ability to compress targets to shell areal densities in the range of similar to 60 to 130 mg/cm(2). (C) 2000 American Institute of Physics. [S1070-664X(00)03303 -6].