2014
DOI: 10.1017/jfm.2013.658
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Experimental studies of aero-optical properties of subsonic turbulent boundary layers

Abstract: This paper gives the most-complete characterization to date of the optical aberrations imposed on a laser beam propagated through a subsonic, compressible, turbulent boundary layer in a zero-pressure gradient environment, over a range of boundarylayer thicknesses, oblique propagation angles and Mach numbers. This characterization is based on optical measurements using optical-wavefront-sensing instruments that have only become available in the last decade. The optical characterization includes and discusses in… Show more

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Cited by 111 publications
(142 citation statements)
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“…For both the Caltech wavefront data obtained at Reθ = 1,700 the convective velocity was found to be 0.83U ∞ using the correlation of the two beams, a value which is consistent with wavefront measurements obtained previously at higher Reynolds numbers [9,14]. For wavefronts obtained in the Notre Dame facility, the convective velocity was found to be 0.82U ∞, which is also consistent with previous measurements in this facility at higher Reynolds numbers.…”
Section: Resultssupporting
confidence: 89%
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“…For both the Caltech wavefront data obtained at Reθ = 1,700 the convective velocity was found to be 0.83U ∞ using the correlation of the two beams, a value which is consistent with wavefront measurements obtained previously at higher Reynolds numbers [9,14]. For wavefronts obtained in the Notre Dame facility, the convective velocity was found to be 0.82U ∞, which is also consistent with previous measurements in this facility at higher Reynolds numbers.…”
Section: Resultssupporting
confidence: 89%
“…The peaks for all measured spectra are at St δ = 1.0, independent of Reynolds number. In [14] it was shown that using Kolmogorov-like arguments for the inertial range, the deflection angle amplitude spectrum at large frequencies should behave as ~f (−2/3) . This spectra behavior is Smith et al…”
Section: Resultsmentioning
confidence: 99%
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