Add to ORKGA series of experiments is conducted where a quantitative non-intrusive optical technique is used to investigate disturbances in the free-stream of T5, the free-piston driven reflected shock tunnel at Caltech. The optical technique, focused laser differential interferometry (FLDI), measures fluctuations in density. In the test matrix, reservoir enthalpy is varied while the reservoir pressure is held fixed. The results show the perturbations in density are not a strong function of the reservoir enthalpy. During one experiment, exceptional levels of noise were detected; this unique result is attributed to non-ideal operation of the shock tunnel. The data indicate that rms density fluctuations of less than 0.75% are achievable with attention t...
Focused laser differential interferometry (FLDI) and its relative two-point focused laser differenti...
A computational method for predicting the output of a focused laser differential interferometer (FLD...
A computational method for predicting the output of a focused laser differential interferometer (FLD...
A series of experiments is conducted where a quantitative non-intrusive optical technique is used to...
A series of experiments is conducted where a quantitative non-intrusive optical technique is used to...
The focused laser differential interferometer (FLDI) was used to investigate disturbances in a hyper...
The focused laser differential interferometer (FLDI) was used to investigate disturbances in a hyper...
The prediction of laminar–turbulent transition location in high-speed boundary layers is critical to...
The character of the boundary layer noise and ambient tunnel noise are of interest in the experiment...
The focused laser differential interferometer (FLDI) is a non-imaging optical diagnostic that is sen...
The focused laser differential interferometer (FLDI) is a non-imaging optical diagnostic that is sen...
A novel optical method is used to measure the high-frequency (up to 3 MHz) density fluctuations that...
A focused laser differential interferometer (FLDI) is applied to Caltech's Hypervelocity Expansion T...
A focused laser differential interferometer (FLDI) is applied to Caltech's Hypervelocity Expansion T...
A focused laser differential interferometer (FLDI) is applied to Caltech's Hypervelocity Expansion T...
Focused laser differential interferometry (FLDI) and its relative two-point focused laser differenti...
A computational method for predicting the output of a focused laser differential interferometer (FLD...
A computational method for predicting the output of a focused laser differential interferometer (FLD...
A series of experiments is conducted where a quantitative non-intrusive optical technique is used to...
A series of experiments is conducted where a quantitative non-intrusive optical technique is used to...
The focused laser differential interferometer (FLDI) was used to investigate disturbances in a hyper...
The focused laser differential interferometer (FLDI) was used to investigate disturbances in a hyper...
The prediction of laminar–turbulent transition location in high-speed boundary layers is critical to...
The character of the boundary layer noise and ambient tunnel noise are of interest in the experiment...
The focused laser differential interferometer (FLDI) is a non-imaging optical diagnostic that is sen...
The focused laser differential interferometer (FLDI) is a non-imaging optical diagnostic that is sen...
A novel optical method is used to measure the high-frequency (up to 3 MHz) density fluctuations that...
A focused laser differential interferometer (FLDI) is applied to Caltech's Hypervelocity Expansion T...
A focused laser differential interferometer (FLDI) is applied to Caltech's Hypervelocity Expansion T...
A focused laser differential interferometer (FLDI) is applied to Caltech's Hypervelocity Expansion T...
Focused laser differential interferometry (FLDI) and its relative two-point focused laser differenti...
A computational method for predicting the output of a focused laser differential interferometer (FLD...
A computational method for predicting the output of a focused laser differential interferometer (FLD...