Changes in Ultrasonic Pulse Shapes Due to Nonlinear Processes

reportActive / Technical Report | Accession Number: ADA198274 | Open PDF

Abstract:

Acoustooptic interaction theory is applied to ultrasonic pulses in order to determine pulse parameters from the light diffraction pattern produced by the pulses. Experiments are described to show how pulse shapes change when propagation is in a nonlinear liquid. It is shown that pure electronic determinations of pulse shapes do not describe all the changes accurately whenever the probe response is not known exactly. Use of present method is able to eliminate this problem. Examples of pulse propagation as investigated by acoustooptic method are given and evaluated. Keywords Ultrasonic pulses Acoustooptics Nonlinearities reflection.

Author(s):
Mayer, Walter G. ; Wolf, J. ; Ngoc, T. D.
Author Organization(s):
GEORGETOWN UNIV WASHINGTON DC DEPT OF PHYSICS
Descriptive Note:
Final rept. 1 Aug 1985-31 Jul 1988
Pagination:
0090

Security Markings

DOCUMENT & CONTEXTUAL SUMMARY

Distribution:
Approved For Public Release
Distribution Statement:
Approved For Public Release; Distribution Is Unlimited.

RECORD

Collection: TR
Identifying Numbers
Contract/Grant Number(s):
N00014-86-K-0624
Monitor Series:
ONR
 Subject Terms
Joint Capability Areas:
JCA_5_Command and Control; JCA_1.2.7_Experimentation; JCA_5.3_Planning; JCA_4.5.4_Requirements Definition; JCA_4.5_Operational Contract Support; JCA_1.2.1_Training; JCA_1.2.3_Educating; JCA_1.3.2_Personnel Management
Modernization Areas:
Space; Microelectronics
Communities of Interest:
Space
Descriptor(s):
*ACOUSTOOPTICS, *OPTICAL PROCESSING, *ULTRASONICS, LIQUIDS, PARAMETERS, THEORY, SHAPE, LIGHT, NONLINEAR SYSTEMS, PULSES, DIFFRACTION, PATTERNS, ACOUSTIC SIGNALS, INTERACTIONS, ACOUSTIC REFLECTION, PROPAGATION, PROBES
Field(s)/Group(s):
Acoustooptic and Optoacoustic Devices
Keyword(s):
*ULTRASONIC PULSES, PE61153N
Report Date:
1988 Jul 31