C
Christopher S. Goldenstein
Researcher at Purdue University
Publications - 95
Citations - 2371
Christopher S. Goldenstein is an academic researcher from Purdue University. The author has contributed to research in topics: Laser & Absorption spectroscopy. The author has an hindex of 23, co-authored 79 publications receiving 1731 citations. Previous affiliations of Christopher S. Goldenstein include Stanford University.
Papers
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Infrared laser-absorption sensing for combustion gases
TL;DR: A review of the development, application, and current capabilities of infrared laser-absorption spectroscopy (IR-LAS) sensors for combustion gases can be found in this paper.
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Fitting of calibration-free scanned-wavelength-modulation spectroscopy spectra for determination of gas properties and absorption lineshapes.
Christopher S. Goldenstein,Christopher L. Strand,Ian A. Schultz,Kai Sun,Jay B. Jeffries,Ronald K. Hanson +5 more
TL;DR: The development and initial demonstration of a scanned-wavelength, first-harmonic-normalized, wavelength-modulation spectroscopy with nf detection (scanned-WMS-nf/1f) strategy for calibration-free measurements of gas conditions are presented.
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Analysis of calibration-free wavelength-scanned wavelength modulation spectroscopy for practical gas sensing using tunable diode lasers
TL;DR: In this paper, a novel strategy has been developed for analysis of wavelength-scanned, wavelength modulation spectroscopy (WMS) with tunable diode lasers (TDLs).
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SpectraPlot.com: Integrated spectroscopic modeling of atomic and molecular gases
TL;DR: SpectraPlot as discussed by the authors is a web-based application for simulating spectra of atomic and molecular gases, including absorption spectra, transition linestrengths, and blackbody emission spectra.
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Simultaneous sensing of temperature, CO, and CO 2 in a scramjet combustor using quantum cascade laser absorption spectroscopy
TL;DR: In this paper, a mid-infrared laser absorption sensor was developed for gas temperature and carbon oxide (CO, CO2) concentrations in high-enthalpy, hydrocarbon combustion flows.