Search Results - "Swift, D. C."

Metastability of diamond ramp-compressed to 2 terapascals by Lazicki, A., McGonegle, D., Rygg, J. R., Braun, D. G., Swift, D. C., Gorman, M. G., Smith, R. F., Heighway, P. G., Higginbotham, A., Suggit, M. J., Fratanduono, D. E., Coppari, F., Wehrenberg, C. E., Kraus, R. G., Erskine, D., Bernier, J. V., McNaney, J. M., Rudd, R. E., Collins, G. W., Eggert, J. H., Wark, J. S.

“…Carbon is the fourth-most prevalent element in the Universe and essential for all known life. In the elemental form it is found in multiple allotropes,…”
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Probing the Solid Phase of Noble Metal Copper at Terapascal Conditions by Fratanduono, D E, Smith, R F, Ali, S J, Braun, D G, Fernandez-Pañella, A, Zhang, S, Kraus, R G, Coppari, F, McNaney, J M, Marshall, M C, Kirch, L E, Swift, D C, Millot, M, Wicks, J K, Eggert, J H

“…Ramp compression along a low-temperature adiabat offers a unique avenue to explore the physical properties of materials at the highest densities of their solid…”
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Femtosecond Visualization of Lattice Dynamics in Shock-Compressed Matter by Milathianaki, D., Boutet, S., Williams, G. J., Higginbotham, A., Ratner, D., Gleason, A. E., Messerschmidt, M., Seibert, M. M., Swift, D. C., Hering, P., Robinson, J., White, W. E., Wark, J. S.

“…The ultrafast evolution of microstructure is key to understanding high-pressure and strain-rate phenomena. However, the visualization of lattice dynamics at…”
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Mass-Radius Relationships for Exoplanets by Swift, D. C, Eggert, J. H, Hicks, D. G, Hamel, S, Caspersen, K, Schwegler, E, Collins, G. W, Nettelmann, N, Ackland, G. J

“…For planets other than Earth, particularly exoplanets, interpretation of the composition and structure depends largely on comparing the mass and radius with…”
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Shock vaporization of silica and the thermodynamics of planetary impact events by Kraus, R. G., Stewart, S. T., Swift, D. C., Bolme, C. A., Smith, R. F., Hamel, S., Hammel, B. D., Spaulding, D. K., Hicks, D. G., Eggert, J. H., Collins, G. W.

“…The most energetic planetary collisions attain shock pressures that result in abundant melting and vaporization. Accurate predictions of the extent of melting…”
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X-Ray Diffraction of Solid Tin to 1.2 TPa by Lazicki, A, Rygg, J R, Coppari, F, Smith, R, Fratanduono, D, Kraus, R G, Collins, G W, Briggs, R, Braun, D G, Swift, D C, Eggert, J H

“…We report direct in situ measurements of the crystal structure of tin between 0.12 and 1.2 TPa, the highest stress at which a crystal structure has ever been…”
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Extreme Hardening of Pb at High Pressure and Strain Rate by Krygier, A, Powell, P D, McNaney, J M, Huntington, C M, Prisbrey, S T, Remington, B A, Rudd, R E, Swift, D C, Wehrenberg, C E, Arsenlis, A, Park, H-S, Graham, P, Gumbrell, E, Hill, M P, Comley, A J, Rothman, S D

“…We study the high-pressure strength of Pb and Pb-4wt%Sb at the National Ignition Facility. We measure Rayleigh-Taylor growth of preformed ripples ramp…”
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Absolute Equation-of-State Measurement for Polystyrene from 25 to 60 Mbar Using a Spherically Converging Shock Wave by Döppner, T, Swift, D C, Kritcher, A L, Bachmann, B, Collins, G W, Chapman, D A, Hawreliak, J, Kraus, D, Nilsen, J, Rothman, S, Benedict, L X, Dewald, E, Fratanduono, D E, Gaffney, J A, Glenzer, S H, Hamel, S, Landen, O L, Lee, H J, LePape, S, Ma, T, MacDonald, M J, MacPhee, A G, Milathianaki, D, Millot, M, Neumayer, P, Sterne, P A, Tommasini, R, Falcone, R W

“…We have developed an experimental platform for the National Ignition Facility that uses spherically converging shock waves for absolute equation-of-state (EOS)…”
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Measurement of Body-Centered-Cubic Aluminum at 475 GPa by Polsin, D N, Fratanduono, D E, Rygg, J R, Lazicki, A, Smith, R F, Eggert, J H, Gregor, M C, Henderson, B H, Delettrez, J A, Kraus, R G, Celliers, P M, Coppari, F, Swift, D C, McCoy, C A, Seagle, C T, Davis, J-P, Burns, S J, Collins, G W, Boehly, T R

“…Nanosecond in situ x-ray diffraction and simultaneous velocimetry measurements were used to determine the crystal structure and pressure, respectively, of…”
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Direct Observation of Melting in Shock-Compressed Bismuth With Femtosecond X-ray Diffraction by Gorman, M G, Briggs, R, McBride, E E, Higginbotham, A, Arnold, B, Eggert, J H, Fratanduono, D E, Galtier, E, Lazicki, A E, Lee, H J, Liermann, H P, Nagler, B, Rothkirch, A, Smith, R F, Swift, D C, Collins, G W, Wark, J S, McMahon, M I

“…The melting of bismuth in response to shock compression has been studied using in situ femtosecond x-ray diffraction at an x-ray free electron laser. Both…”
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Molybdenum at high pressure and temperature: melting from another solid phase by Belonoshko, A B, Burakovsky, L, Chen, S P, Johansson, B, Mikhaylushkin, A S, Preston, D L, Simak, S I, Swift, D C

“…The Gibbs free energies of bcc and fcc Mo are calculated from first principles in the quasiharmonic approximation in the pressure range from 350 to 850 GPa at…”
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Solid iron compressed up to 560 GPa by Ping, Y, Coppari, F, Hicks, D G, Yaakobi, B, Fratanduono, D E, Hamel, S, Eggert, J H, Rygg, J R, Smith, R F, Swift, D C, Braun, D G, Boehly, T R, Collins, G W

“…Dynamic compression by multiple shocks is used to compress iron up to 560 GPa (5.6 Mbar), the highest solid-state pressure yet attained for iron in the…”
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Anomalous elastic response of silicon to uniaxial shock compression on nanosecond time scales by Loveridge-Smith, A, Allen, A, Belak, J, Boehly, T, Hauer, A, Holian, B, Kalantar, D, Kyrala, G, Lee, R W, Lomdahl, P, Meyers, M A, Paisley, D, Pollaine, S, Remington, B, Swift, D C, Weber, S, Wark, J S

“…We have used x-ray diffraction with subnanosecond temporal resolution to measure the lattice parameters of orthogonal planes in shock compressed single…”
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Author Correction: Metastability of diamond ramp-compressed to 2 terapascals by Lazicki, A., McGonegle, D., Rygg, J. R., Braun, D. G., Swift, D. C., Gorman, M. G., Smith, R. F., Heighway, P. G., Higginbotham, A., Suggit, M. J., Fratanduono, D. E., Coppari, F., Wehrenberg, C. E., Kraus, R. G., Erskine, D., Bernier, J. V., McNaney, J. M., Rudd, R. E., Collins, G. W., Eggert, J. H., Wark, J. S.

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Erratum: Measurement of Body-Centered-Cubic Aluminum at 475 GPa [Phys. Rev. Lett. 119, 175702 (2017)] by Polsin, D N, Fratanduono, D E, Rygg, J R, Lazicki, A, Smith, R F, Eggert, J H, Gregor, M C, Henderson, B H, Delettrez, J A, Kraus, R G, Celliers, P M, Coppari, F, Swift, D C, McCoy, C A, Seagle, C T, Davis, J-P, Burns, S J, Collins, G W, Boehly, T R

“…This corrects the article DOI: 10.1103/PhysRevLett.119.175702…”
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Transition to efficient, unsuppressed bulk-target ion acceleration via high-fluence laser irradiation by Higginson, D. P., Kim, J., Petrov, G. M., Swift, D. C., Cobble, J. A., Bleuel, D. L., Frenje, J. A., Glebov, V. Yu, Stoeckl, C., McNaney, J. M., Beg, F. N.

“…A high-intensity laser irradiating a few-μm solid foil will accelerate ions from the bulk of the target as well as protons from a surface contaminant layer…”
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In situ lattice measurement of the bcc phase boundary in Mg on the principal shock Hugoniot by Milathianaki, D., Swift, D. C., Hawreliak, J., El-Dasher, B. S., McNaney, J. M., Lorenzana, H. E., Ditmire, T.

“…We report on nanosecond resolution lattice measurements of shock-compressed Mg in the hcp and bcc phases between 12 and 45 GPa. X-ray diffraction signals…”
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Laser-induced shock waves in condensed matter: some techniques and applications by Luo, S. N., Swift, D. C., Tierney, T. E., Paisley, D. L., Kyrala, G. A., Johnson, R. P., Hauer, A. A., Tschauner, O., Asimow, P. D.

“…Laser-induced shock waves in condensed matter have important applications in dynamic material studies and high pressure physics. We briefly review some…”
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Quenching of bcc-Fe from high to room temperature at high-pressure conditions: a molecular dynamics simulation by Belonoshko, A B, Derlet, P M, Mikhaylushkin, A S, Simak, S I, Hellman, O, Burakovsky, L, Swift, D C, Johansson, B

“…The new high-temperature (T), high-pressure (P), body-centered cubic (bcc) phase of iron has probably already been synthesized in recent diamond anvil cell…”
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MASS-RADIUS RELATIONSHIPS FOR EXOPLANETS by SWIFT, D. C, EGGERT, J. H, HICKS, D. G, HAMEL, S, CASPERSEN, K, SCHWEGLER, E, COLLINS, G. W, NETTELMANN, N, ACKLAND, G. J

“…For planets other than Earth, particularly exoplanets, interpretation of the composition and structure depends largely on comparing the mass and radius with…”
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