Experimental Studies of Very-High Mach Number Hydrodynamics
Abstract
We present results of experiments on very-high Mach number (> 100) shocks and very-high Mach number and Reynolds number (> 100, 106) turbulence. Such high Mach number hydrodynamics are initiated with a powerful laser pulse driver. We show that shocks created with a laser driver follow the Taylor-Sedov self-similar solution and scale via the Sachs scaling law just like shocks created by more traditional methods. In one experiment we examined laser- produced-shock solid-surface interactions and observed expected phenomena such as Marsh stems and triple points, and also measured a new phenomenon termed a blast wave decursor. In second experiment we found that shocks become unstable if they propagate through a gas which has a low adiabatic index and we measured the growth rate of the instability. In a third experiment we have shown that a high Mach number shock dramatically enhances the structure of a turbulent field through which it passes and that the shock is itself badly distorted. This result is unexpected since common wisdom has it that high Mach number shocks would self-heal as they pass through a turbulent field. Turbulence, Shock.
Document Details
- Document Type
- Technical Report
- Publication Date
- Feb 14, 1994
- Accession Number
- ADA278761
Entities
People
- Alfred Buckingham
- Barrett Ripin
- Charles Manka
- Ira Kohlberg
- Jacob GrĂ¼n
Organizations
- United States Naval Research Laboratory