Timothy Haller scite author profile

A high-speed temperature diagnostic based on spontaneous Raman scattering (SRS) was demonstrated using a pulse-burst laser. The technique was first benchmarked in near-adiabatic H 2 - a i r flames at a data-acquisition rate of 5 kHz using an integrated pulse energy of 1.0 J per realization. Both the measurement precision and accuracy in the flame were within 3% of adiabatic predictions. This technique was then evaluated in a challenging free-piston shock tube environment operated at a shock Mach number of 3.5. SRS thermometry resolved the temperature in post-incident and post-reflected shock flows at a repetition rate of 3 kHz and clearly showed cooling associated with driver expansion waves. Collectively, this Letter represents a major advancement for SRS in impulsive facilities, which had previously been limited to steady state regions or single-shot acquisition.

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Burst-Mode Spontaneous Raman Thermometry in a Flat Flame

Winters

Haller

Wagner

et al. 2020

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Timothy Haller

Spontaneous Raman Scattering Temperature Measurements and Large Eddy Simulations of Vibrational Non-equilibrium in High-Speed Jet Flames

Measurements of pressure broadening of N2 in the anisotropic tensor component of spontaneous Raman spectra

High-Pressure Spontaneous Raman Scattering Based Temperature Measurements

Pulse-burst spontaneous Raman thermometry of unsteady wave phenomena in a shock tube

Burst-Mode Spontaneous Raman Thermometry in a Flat Flame

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