Kirk Davenport scite author profile

In this Letter, a modification of the well-known focused-laser differential interferometer (FLDI) is demonstrated, with the primary focus being increasing the number of probed locations efficiently. To generate multiple beams in the FLDI system, a diffractive optical element is used. This approach is significantly more cost-effective and easier to implement than the current approach of generating multiple FLDI beam pairs using a series of Wollaston prisms. The measurements shown here utilize a 1D linear array of points, and the ability to generate a 2D array is demonstrated using two linear diffractive optical elements in tandem. Therefore, this technique, referred to as linear array FLDI (LA-FLDI), is able to provide measurements of fluid disturbances at multiple discrete locations while allowing for high data acquisition rates ( > 1 M H z ). This technique provides a much simpler approach to multipoint FLDI measurements and can increase the throughput of FLDI measurements in impulse aerospace testing facilities.

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An m by n FLDI Array for Single-Shot Multipoint Disturbance Measurements in High-Speed Flows

Gragston

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Davenport

et al. 2021

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Simultaneous Velocity Profile and Scalar Spectra with Linear Array-Focused Laser Differential Interferometry

Davenport

Gragston

2023

AIAA Journal

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Simultaneous Turbulent Boundary Layer Velocity Profile and Scalar Turbulence Spectra with Linear Array-FLDI

Davenport

Gragston

2022

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Kirk Davenport

Design and Initial Characterization of the UTSI Mach 4 Ludwieg Tube

Linear array focused-laser differential interferometry for single-shot multi-point flow disturbance measurements

An m by n FLDI Array for Single-Shot Multipoint Disturbance Measurements in High-Speed Flows

Simultaneous Velocity Profile and Scalar Spectra with Linear Array-Focused Laser Differential Interferometry

Simultaneous Turbulent Boundary Layer Velocity Profile and Scalar Turbulence Spectra with Linear Array-FLDI

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