Two Shock Wave Physics Problems: The Macro-Micro Coupling Term and Shock Amplification in Piezoelectric Media.
Abstract
Problem 1: The transfer of momentum from internal (microscopic) to center of mass (macroscopic) coordinates is considered for a system of nonuniform mass density and typical internal coordinates. First order averaging over the mass density is shown to lead to an internal variable contribution to the center of mass velocity proportional to time to the fourth power (in the t goes to 0 limit) and proportional to the square of the nonuniformity (i.e., the mass density disturbance amplitude). Problem 2: The gain is calculated for a boundary value problem with a strain function of the modulated exponential form in an active piezoelectric semiconductor. The boundary, via the electric field gradient, is seen to make a contribution to the gain and the allowed frequencies (for the linearized problem) in a way which does not appear in the acoustoelectric ultrasonic amplification problem. A formulism is set up which allows for the rapid calculation of gain even for the highly nonlinear problem.
Document Details
- Document Type
- Technical Report
- Publication Date
- Nov 01, 1982
- Accession Number
- ADA121670
Entities
People
- Paul Harris
Organizations
- United States Army Armament Research, Development and Engineering Center