2010
DOI: 10.2514/1.j050047
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NO and OH Spectroscopic Vibrational Temperature Measurements in a Post-Shock Relaxation Region

Abstract: In this paper, spatial temperature profiles are examined in the nonequilibrium relaxation region behind a stationary shock wave in a hypervelocity air Mach 7.42 freestream. The normal shock wave is established through a Mach reflection from an opposing wedge arrangement in an expansion tube facility. Schlieren images confirm that the shock configuration is steady and the location is repeatable. Emission spectroscopy is used to identify dissociated species and to make vibrational temperature measurements using … Show more

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Cited by 17 publications
(10 citation statements)
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“…26 For more information regarding the development, testing and performance verification of the thermocouples please see Flaherty and Austin. 27 The experimental set up for the spectroscopic experiments is described in more detail in Sharma et al 28 Briefly, spectra were collected using a SPEX 270M spectrometer and visualized with a Princeton Instruments PI-MAX MG:512SB intensified CCD camera system. Exposure was set to 100 μs.…”
Section: Methodsmentioning
confidence: 99%
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“…26 For more information regarding the development, testing and performance verification of the thermocouples please see Flaherty and Austin. 27 The experimental set up for the spectroscopic experiments is described in more detail in Sharma et al 28 Briefly, spectra were collected using a SPEX 270M spectrometer and visualized with a Princeton Instruments PI-MAX MG:512SB intensified CCD camera system. Exposure was set to 100 μs.…”
Section: Methodsmentioning
confidence: 99%
“…Transmitted shock velocity is typically accurate to within ±43 m/s in this facility, and it is expected that similar error bars will exist for test gas velocity measurements. 28 theoretical test gas pitot pressure is determined from the Rayleigh pitot equation. Perfect gas calculations show the pitot pressure is most sensitive to the static pressure across the secondary contact surface (states 6 and 7).…”
Section: A Criteria For Selection Of Experimental Test Conditionsmentioning
confidence: 99%
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“…Transmitted shock velocity, u t , is typically accurate to within ±43 m/s in the HET and it is expected that similar error bars will exist for test gas velocity measurements. 26 In the first column, the test conditions were generated by varying the acceleration section gas; here argon, helium, air and carbon dioxide are used. The test conditions are described in terms of the driven-accelerator gas combination.…”
Section: A Criteria For Selection Of Experimental Test Conditionsmentioning
confidence: 99%