[HTML][HTML] Hydrodynamic computations of high-power laser drives generating metal ejecta jets from surface grooves
Understanding dynamic fragmentation in shock-loaded metals and predicting properties of
the resulting ejecta are of considerable importance for both basic and applied science. The …
the resulting ejecta are of considerable importance for both basic and applied science. The …
Hydrodynamic computations of high-power laser drives generating metal ejecta jets from surface grooves
KK Mackay, FM Najjar, SJ Ali, JH Eggert… - Journal of Applied …, 2020 - pubs.aip.org
Understanding dynamic fragmentation in shock-loaded metals and predicting properties of
the resulting ejecta are of considerable importance for both basic and applied science. The …
the resulting ejecta are of considerable importance for both basic and applied science. The …
Hydrodynamic computations of high-power laser drives generating metal ejecta jets from surface grooves
KK Mackay, FM Najjar, SJ Ali… - Journal of Applied …, 2020 - ui.adsabs.harvard.edu
Understanding dynamic fragmentation in shock-loaded metals and predicting properties of
the resulting ejecta are of considerable importance for both basic and applied science. The …
the resulting ejecta are of considerable importance for both basic and applied science. The …
Hydrodynamic computations of high-power laser drives generating metal ejecta jets from surface grooves
KK Mackay, FM Najjar, SJ Ali, JH Eggert… - Journal of Applied …, 2020 - osti.gov
Understanding dynamic fragmentation in shock-loaded metals and predicting properties of
the resulting ejecta are of considerable importance for both basic and applied science. The …
the resulting ejecta are of considerable importance for both basic and applied science. The …