Polarization-dependent LIF/Mie ratio for sizing of micrometric ethanol droplets doped with Nile red

Koegl, Matthias; Dai, Hongfei; Baderschneider, Kevin; Ulrich, Hannah; Zigan, Lars

doi:10.1364/ao.457685

Cited by 11 publications

(11 citation statements)

References 61 publications

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“…A high-quality picture is obtained if the number of rays is not less than the number of array elements, i.e. 4N 2 .…”

Section: Ray Optics (Descartes') Canonical Calculationmentioning

confidence: 99%

“…A scientific area named the optics of microdroplets covers fundamental and applied problems such as droplet evaporation, laser-matter interactions, fluorescence, and spontaneous emission [1]. Among its latest advancements is the rapid determination of the size of spray droplets by optical response [2]. Recently, the certain regions have been noticed within an illuminated droplet where the inactivation of viruses by ultraviolet is difficult [3].…”

Section: Introductionmentioning

confidence: 99%

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Improved calculation of the Mie solution and the geometrical optics approximation for large droplets

Gabyshev,

Ganopolsky

2023

Laser Phys.

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This article considers energy distribution of light inside a uniformly illuminated transparent water droplet. Two methods are used: the geometrical optics approximation and the Mie solution derived from wave optics. The authors describe in detail calculation algorithms suitable for efficient computer implementation and ways to improve them. In the limit for large droplets, both similarities and differences between the methods are pointed out. Resonant states are discussed, when the usually dark regions of the droplet turn out to be illuminated.

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“…A high-quality picture is obtained if the number of rays is not less than the number of array elements, i.e. 4N 2 .…”

Section: Ray Optics (Descartes') Canonical Calculationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Improved calculation of the Mie solution and the geometrical optics approximation for large droplets

Gabyshev,

Ganopolsky

2023

Laser Phys.

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“…Recent work conducted by (Koegl, et al, 2022) has shown that the polarization of the incident light in uences the proportionality between Mie signal and droplet diameter. Further investigation is undertaken here to study the in uence of the incident light polarization on the SLIPI-polarization technique.…”

Section: Effect Of the Incident Light Polarization On The Calibrationmentioning

confidence: 99%

Optimization of SLIPI-polarization ratio imaging for droplet sizing characterization of dense sprays

Garcia,

Stiti,

Doublet

et al. 2023

Preprint

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In this paper, the combination of structured illumination method and polarization ratio technique is successfully applied to the particle sizing of an industrial dense water spray. The polarization ratio technique is based on the acquisition of the perpendicular and parallel polarized components of Lorenz-Mie scattered light, which ratio is proportional to the surface mean diameter, D21. One of the main advantages of this technique, compared to some other laser imaging techniques for particle sizing, is that no fluorescent dye is required. This makes the technique suitable for the characterization of sprays under evaporating conditions, such as combustion applications. The aim of this work is to study the experimental parameters that influence the reliability of the technique, such as the orientation of the incident light polarization, the complex refractive index or even the scattering angle. The results show that the intensity oscillations are strongly attenuated when the incident signal is predominantly in parallel polarization. Furthermore, it is shown that the technique is applicable for refractive indices larger than 1.4, by choosing carefully the scattering angle. Additionally, in order to attenuate the strong Mie ripples, which appear in the scattered light intensity, measurements are carried out in a polydisperse spray. Finally, a 3D reconstruction of D21 is performed on a dense industrial spray, using a calibration by the phase Doppler anemometer technique. This quantitative result shows the robustness and efficiency of the technique.

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“…Nile red can be dissolved in non-polar solvents like iso-octane, kerosene, Fragoltherm F12 and Marlotherm LH and can be utilized for the determination of the mixture composition of e.g. butanol/decane and ethanol/isooctane mixtures [32,33]. Nile red fluorescence shows a high temperature sensitivity when dissolved in kerosene and biofuel blends, while it is less temperature sensitive in fuels such as E20 (80 vol.% iso-octane, 20 vol.% ethanol) and E40 [16].…”

Section: Introductionmentioning

confidence: 99%

A novel laser-induced fluorescence concept for thermometry measurements in machining lubricoolants

Koegl,

Glahn,

Zigan

2024

Meas. Sci. Technol.

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This study investigates a two-colour LIF (laser-induced fluorescence) technique for thermometry in cooling lubricants (CL) for machining. The diagnostic technique should enable a simultaneous determination of cooling film thickness and film temperature, which is relevant for typical machining processes like turning and milling processes. The temperature determination is based on a temperature-sensitive fluorescence intensity ratio of a special dye determined in suitable spectral regions representing common band pass filters. For this purpose, two cooling lubricant emulsions CL6 (6 vol.% CL, 94 vol.% water; normal machining) and CL10 (10 vol.% CL, 90 vol.% water; heavy machining) and its individual components were doped with the fluorescence dye Eosin-Y. Temperature dependent spectral LIF intensities were recorded in the range of 273–313 K, which are relevant for milling and cutting operations. Furthermore, absorption spectra were analysed as well. The temperature-dependent fluorescence measurements revealed a temperature limit for the emulsion stability. The emission peaks of Eosin-Y are shifted with increasing temperature towards longer wavelengths. The sensitivities of CL10 (1.88%/K) and CL6 (1.58%/K) are comparable to or even higher than the sensitivities of other LIF dyes provided in the literature. The literature-based dyes were however not determined in those cooling lubricants. The measurements showed, that the investigated tracer-cooling lubricant/water emulsions mixed with the dye enable a reliable temperature determination.

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Polarization-dependent LIF/Mie ratio for sizing of micrometric ethanol droplets doped with Nile red

Cited by 11 publications

References 61 publications

Improved calculation of the Mie solution and the geometrical optics approximation for large droplets

Improved calculation of the Mie solution and the geometrical optics approximation for large droplets

Optimization of SLIPI-polarization ratio imaging for droplet sizing characterization of dense sprays

A novel laser-induced fluorescence concept for thermometry measurements in machining lubricoolants

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