O. Jarrett scite author profile

Coherent anti-Stokes Raman spectroscopy (CARS) thermometry has been used to obtain static temperature cross sections in a three-dimensional supersonic combustor flowfield. Data were obtained in three span wise planes downstream of a single normal fuel injector which was located downstream of a rearward-facing step. The freestream flow was nominally Mach 2 and was combustion heated to a total temperature of 1440 K (yielding a static temperature of about 800 K in the freestream) to simulate the inflow to a combustor operating at a flight Mach number of about 5.4. Since a broadband probe laser was used an instantaneous temperature sample was obtained with each laser shot at a repetition rate of 10 Hz. Thus root-mean-square (rms) temperatures and temperature probability density functions (pdf's) were obtained in addition to mean temperatures.

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Multispecies coherent anti-Stokes Raman scattering instrument for turbulent combustion

Antcliff

Jarrett

1987

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A nonintrusive diagnostic system is described which permits simultaneous measurement of temperature, nitrogen number density, and oxygen number density in hostile combustion environments. This system is pumped by a 10-Hz neodymium YAG laser, and signals are detected with an intensified photodiode array and dual photomultipliers. The system utilizes a folded BOXCARS beam arrangement, two probe dye lasers, dynamic range expansion, polarization rejection of nonresonant background, and multiplexing of the signal beams.

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Comparison of CARS combustion temperatures with standard techniques

Antcliff

Jarrett

1983

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O. Jarrett

Raman measurement of mixing and finite-rate chemistry in a supersonic hydrogen-air diffusion flame

Finite-rate chemistry effects in a Mach 2 reacting flow

Coherent anti-Stokes Raman spectroscopy temperature measurements in a hydrogen-fueled supersonic combustor

Multispecies coherent anti-Stokes Raman scattering instrument for turbulent combustion

Comparison of CARS combustion temperatures with standard techniques

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