Research on Certain Aspects of Laser Diffraction Particle Size Analysis Relevant to Autonomous Self-Diagnosing Instrumentation

Abstract

The results of a multi-year research effort addressing fundamental scientific issues relevant to the application of laser diagnostic methods as on- line sensors in next-generation propulsion systems are summarized. The overall objective of this research effort was to contribute to the scientific knowledge base necessary to characterize and then extend the capabilities of near-forward scattering (laser-diffraction) particle sizing techniques in terms of application as intelligent sensors capable of on-line, autonomous, and self- diagnosing operation in hostile propulsion system environments. The project scope encompassed three research areas: (1) steering or deflection of the probe laser beam due to refractive index (temperature or concentration) gradients, (2) inverse scattering algorithms, and (3) multiple scattering and measurements in optically thick media. The important technical contributions of this project included: development and demonstration of a concept which allows on-line configuration of optimal detector arrays using transmission-mode spatial light modulators and which can obviate the beam steering problem; derivation of the optimal scaling law for Fraunhofer diffraction particle sizing systems which integrated the optical detector array geometry and the inversion software; systematic formulation and synthesis of the family of integral transform solutions to the inverse Fraunhofer diffraction particle sizing problem and development of a new integral transform; development of a radiation transfer model for near-forward scattering by optically-thick particle media; and development of a general solution and technique for solving the inverse scattering problem for optically-thick dispersions of particles large compared to the wavelength.

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Document Details

Document Type
Technical Report
Publication Date
Jul 27, 1990
Accession Number
ADA226822

Entities

People

  • E. D. Hirleman

Organizations

  • Arizona State University

Tags

Communities of Interest

  • Air Platforms
  • Materials and Manufacturing Processes
  • Sensors
  • Space

DTIC Thesaurus Topics

  • Accuracy
  • Beam Steering
  • Detection
  • Detectors
  • Diffraction
  • Forward Scattering
  • Integral Equations
  • Inverse Problems
  • Inverse Scattering
  • Light Scattering
  • Mechanical Engineering
  • Optical Detectors
  • Optical Modulators
  • Particle Size
  • Particles
  • Propulsion Systems
  • Scattering

Fields of Study

  • Physics

Readers

  • Aerosol Science/Aerosol Physics
  • Systems Analysis and Design
  • Wave Propagation and Nonlinear Chaotic Dynamics.

Technology Areas

  • Directed Energy