R
Rodrigo Sanchez-Gonzalez
Researcher at Texas A&M University
Publications - 25
Citations - 363
Rodrigo Sanchez-Gonzalez is an academic researcher from Texas A&M University. The author has contributed to research in topics: Molecular tagging velocimetry & Laser. The author has an hindex of 9, co-authored 22 publications receiving 311 citations. Previous affiliations of Rodrigo Sanchez-Gonzalez include St. Olaf College & Los Alamos National Laboratory.
Papers
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Journal ArticleDOI
Simultaneous velocity and temperature measurements in gaseous flow fields using the VENOM technique.
TL;DR: Comparisons to computational fluid dynamics simulations show that the initial VENOM measurements provide good velocity and temperature maps in the relatively high-density regions of the flow, where the rms uncertainties are approximately 5% for velocity and 9% for temperature.
Journal ArticleDOI
Coherence brightened laser source for atmospheric remote sensing
Andrew J. Traverso,Rodrigo Sanchez-Gonzalez,Luqi Yuan,Kai Wang,Dmitri V. Voronine,Aleksei M. Zheltikov,Yuri V. Rostovtsev,Vladimir A. Sautenkov,Alexei V. Sokolov,Simon W. North,Marlan O. Scully +10 more
TL;DR: The results suggest that the emission process exhibits nonadiabatic atomic coherence, which is similar in nature to Dicke superradiance, which adds insight to the optical emission physics and holds promise for remote sensing techniques employing nonlinear spectroscopy.
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Simultaneous velocity and temperature measurements in gaseous flowfields using the vibrationally excited nitric oxide monitoring technique: a comprehensive study
TL;DR: The performance of the vibrationally excited nitric oxide monitoring (VENOM) technique for simultaneous velocity and temperature measurements in gaseous flowfields and the results suggest that the VENOM technique holds promise for interrogating high-speed unsteady flowfields.
Journal ArticleDOI
Vibrationally excited NO tagging by NO(A^2Σ^+) fluorescence and quenching for simultaneous velocimetry and thermometry in gaseous flows
TL;DR: Measurements demonstrating simultaneous determination of velocity and temperature using a variant of the Vibrationally Excited Nitric Oxide Monitoring (VENOM) technique that does not employ NO2 are presented.
Journal ArticleDOI
Repetitively Pulsed Hypersonic Flow Apparatus for Diagnostic Development
Rodrigo Sanchez-Gonzalez,Ravi Srinivasan,Jerrod W. Hofferth,Doyong Kim,Andrew Tindall,Rodney D. W. Bowersox,Simon W. North +6 more
TL;DR: In this paper, the authors defined the Boltzmann constant of heat capacity at constant pressure, which is defined as the ratio of heat capacities at a constant volume to the number of rotational states.