EVALUATION OF LASER-DOPPLER VELOCIMETER PERFORMANCE USING MIE SCATTERING THEORY.

Ronald J. Adrian; Walter L. Earley

EVALUATION OF LASER-DOPPLER VELOCIMETER PERFORMANCE USING MIE SCATTERING THEORY.

Ronald J. Adrian, Walter L. Earley

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

A computer code has been developed to evaluate the performance parameters of a general fringe mode LDV, including Doppler signal strength, pedestal signal strength, and signal-to-shot noise ratio, using the Mie scattering theory for spherical scattering particles. The variable parameters in the program are the particle size and refractive index, the laser wavelength, the refractive index of the fluid surrounding the particle, the geometry of the illuminating beams, the direction of observation of the scattered light, and the size and shape of the light receiving aperture. Results are presented in the form of global maps of the SNR for all angles of observation, and expanded maps of the SNR as a function of position on a symmetrically located back scatter light receiving aperture.

Original language	English (US)
Title of host publication	T.&A.M. Report (University of Illinois at Urbana - Champaign, Department of Theoretical and Applied Mechanics)
Edition	479
State	Published - Feb 1 1986
Externally published	Yes

ASJC Scopus subject areas

Engineering(all)

Cite this

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title = "EVALUATION OF LASER-DOPPLER VELOCIMETER PERFORMANCE USING MIE SCATTERING THEORY.",

abstract = "A computer code has been developed to evaluate the performance parameters of a general fringe mode LDV, including Doppler signal strength, pedestal signal strength, and signal-to-shot noise ratio, using the Mie scattering theory for spherical scattering particles. The variable parameters in the program are the particle size and refractive index, the laser wavelength, the refractive index of the fluid surrounding the particle, the geometry of the illuminating beams, the direction of observation of the scattered light, and the size and shape of the light receiving aperture. Results are presented in the form of global maps of the SNR for all angles of observation, and expanded maps of the SNR as a function of position on a symmetrically located back scatter light receiving aperture.",

author = "Adrian, {Ronald J.} and Earley, {Walter L.}",

year = "1986",

month = feb,

day = "1",

language = "English (US)",

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T1 - EVALUATION OF LASER-DOPPLER VELOCIMETER PERFORMANCE USING MIE SCATTERING THEORY.

AU - Adrian, Ronald J.

AU - Earley, Walter L.

PY - 1986/2/1

Y1 - 1986/2/1

N2 - A computer code has been developed to evaluate the performance parameters of a general fringe mode LDV, including Doppler signal strength, pedestal signal strength, and signal-to-shot noise ratio, using the Mie scattering theory for spherical scattering particles. The variable parameters in the program are the particle size and refractive index, the laser wavelength, the refractive index of the fluid surrounding the particle, the geometry of the illuminating beams, the direction of observation of the scattered light, and the size and shape of the light receiving aperture. Results are presented in the form of global maps of the SNR for all angles of observation, and expanded maps of the SNR as a function of position on a symmetrically located back scatter light receiving aperture.

AB - A computer code has been developed to evaluate the performance parameters of a general fringe mode LDV, including Doppler signal strength, pedestal signal strength, and signal-to-shot noise ratio, using the Mie scattering theory for spherical scattering particles. The variable parameters in the program are the particle size and refractive index, the laser wavelength, the refractive index of the fluid surrounding the particle, the geometry of the illuminating beams, the direction of observation of the scattered light, and the size and shape of the light receiving aperture. Results are presented in the form of global maps of the SNR for all angles of observation, and expanded maps of the SNR as a function of position on a symmetrically located back scatter light receiving aperture.

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M3 - Chapter

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BT - T.&A.M. Report (University of Illinois at Urbana - Champaign, Department of Theoretical and Applied Mechanics)

ER -

EVALUATION OF LASER-DOPPLER VELOCIMETER PERFORMANCE USING MIE SCATTERING THEORY.

Abstract

ASJC Scopus subject areas

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