1.    V. Karkhanis and P. Ramaprabhu. “Ejecta velocities in twice-shocked liquid metals under extreme conditions: A hydrodynamic

       approach.” Matter and Radiation at Extremes 4, 044402 (2019) (Invited Paper).

2.    V. Karkhanis, P. Ramaprabhu, F.J. Cherne, J.E. Hammerberg, and M.J. Andrews. “A numerical study of bubble and spike

       velocities in shock driven liquid metals.” Journal of Applied Physics 123.2 (2018): 025902.

3.    V. Karkhanis, P. Ramaprabhu, W.T. Buttler, J.E. Hammerberg, F.J. Cherne, and M.J. Andrews. “Ejecta production from second

       shock: Numerical simulations and experiments.” Journal of Dynamic Behavior of Materials DOI: 10.1007/s40870-017-0091-9

       (2017) (Invited Paper).

4.    J.E. Hammerberg, F.J. Cherne, M.J. Andrews, V. Karkhanis, P. Ramaprabhu, and W.T. Buttler. “A Source Model for Ejecta.”

       Journal of Dynamic Behavior of Materials DOI: 10.1007/s40870-017-0116-4 (2017) (Invited Paper).

5.    P. Ramaprabhu, V. Karkhanis, and A. G. W. Lawrie. “The Rayleigh-Taylor instability driven by an accel-decel-accel profile.”

       Physics of Fluids 25, no. 11 (2013): 115104.

6.    P. Ramaprabhu, V. Karkhanis, R. Banerjee, H. Varshochi, M. Khan, and A. G. W. Lawrie. "Evolution of the single-mode Rayleigh-

       Taylor instability under the influence of time-dependent accelerations." Physical Review E 93, no. 1 (2016): 013118.

7.    F.J.Cherne, J. E. Hammerberg, M. J. Andrews, V. Karkhanis, and P. Ramaprabhu. "On shock driven jetting of liquid from non-

       sinusoidal surfaces into a vacuum." Journal of Applied Physics 118, no. 18 (2015): 185901.

8.    N. Attal, P. Ramaprabhu, J. Hossain, V. Karkhanis, M. Uddin, J. R. Gord, and S. Roy. "Development and validation of a chemical

       reaction solver coupled to the FLASH code for combustion applications." Computers & Fluids 107 (2015): 59-76.