Default settings: All Years. All Articles.
Narrow search: Select year in left column, and/or article type in 1 of 3 pulldowns.
Search box: Insert text to further narrow search. Finds matches in Author List, Article Title, and Journal Name.
Sort results: Click on "First Author" or "Year" at the top of the display columns.
|Perry, TS., et al., "Replicating the Z iron opacity experiments on the NIF." High Energ. Dens. Phys., v. 23, p.223-227 (2017)||2017|
|Moore, AS., et al., "A simulation-based and analytic analysis of the off-Hugoniot response of alternative inertial confinement fusion ablator materials." High Energ. Dens. Phys., v. 20, p.23-28 (2016)||2016|
|Kraus, D., et al., "X-ray scattering measurements on imploding CH spheres at the National Ignition Facility." Phys. Rev. E, v. 94, 011202 (2016)||2016|
|Nilsen, J., et al., "Using neutrons to measure keV temperatures in highly compressed plastic at multi-Gbar pressures." High Energ. Dens. Phys., v. 21, p.20-26 (2016)||2016|
|Fratanduono, DE., et al., "The effect of nearly steady shock waves in ramp compression experiments." J. Appl. Phys., v. 117, 245903 (2015)||2015|
|Guymer, TM., et al., "Quantifying equation-of-state and opacity errors using integrated supersonic diffusive radiation flow experiments on the National Ignition Facility." Phys. Plasmas, v. 22, 043303 (2015)||2015|
|Smith, RF., et al., "Ramp compression of diamond to five terapascals." Nature, v. 511, p.330-+ (2014)||2014|
|Bachmann, B., et al., "Using penumbral imaging to measure micrometer size plasma hot spots in Gbar equation of state experiments on the National Ignition Facility." Rev. Sci. Instrum., v. 85, 11D614 (2014)||2014|
|Doppner, T., et al., "Qualification of a high-efficiency, gated spectrometer for x-ray Thomson scattering on the National Ignition Facility." Rev. Sci. Instrum., v. 85, 11D617 (2014)||2014|
|Kraus, D., et al., "X-ray continuum emission spectroscopy from hot dense matter at Gbar pressures." Rev. Sci. Instrum., v. 85, 11D606 (2014)||2014|
|Kritcher, AL., et al., "Probing matter at Gbar pressures at the NIF." High Energ. Dens. Phys., v. 10, p.27-34 (2014)||2014|
|Zylstra, AB., et al., "The effect of shock dynamics on compressibility of ignition-scale National Ignition Facility implosions." Phys. Plasmas, v. 21, 112701 (2014)||2014|
|Robey, HF., et al., "Measurement of High-Pressure Shock Waves in Cryogenic Deuterium-Tritium Ice Layered Capsule Implosions on NIF." Phys. Rev. Lett., v. 111, 065003 (2013)||2013|
|Wang, J., et al., "Ramp compression of iron to 273 GPa." J. Appl. Phys., v. 114, 023513 (2013)||2013|
|Hamel, S., et al., "Equation of state of CH1.36: First-principles molecular dynamics simulations and shock-and-release wave speed measurements." Phys. Rev. B, v. 86, 094113 (2012)||2012|
|Prisbrey, ST., et al., "Tailored ramp-loading via shock release of stepped-density reservoirs." Phys. Plasmas, v. 19, 056311 (2012)||2012|