Search results for "Light dispersion"

showing 3 items of 3 documents

The intensification of absorbance changes in leaves by light-dispersion

1979

In dispersive samples, like leaves, the absorbance of pigments is intensified. The intensification is due to a longer optical path through the dispersive sample. However, in chloroplast suspensions the optical path is not much longer than in clear solutions. The factor of intensification β (=the lengthening of the optical path) is calculated by comparing the absorbance of leaves and the absorbance of chloroplast suspensions with equal pigment-content. This method also includes the influence of possible sieve effects which could decrease absorbance. The measurements are carried out with high- and low-light leaves of different thickness and pigment content. The intensification of absorbance w…

ChloroplastAbsorbanceCytochrome fPigmentChromatographyChemistryvisual_artLight dispersionGeneticsAnalytical chemistryvisual_art.visual_art_mediumsense organsPlant SciencePlanta
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<title>Refractive properties of separate erythrocytes of Chernobyl clean-up workers at different pH</title>

2000

This study is focused on the modifications in erythrocytes of Chernobyl nuclear power plant accident clean-up workers as a late health effect of short-term impact of high level radioactive contamination. As a result, a new method based on erythrocyte (RBC) refractive index properties at different pH has been elaborated. According to the light dispersion theory for fluids refractive index is associated with molecules mass m. This feature is widely used for estimation of cell dry mass. But there is another refractive index dependency from molecules charge q regardless of its sing. This feature is not being used for cell quantitative and qualitative characterization. In this study, RBC were in…

education.field_of_studyIsoelectric pointChemistryRadioactive contaminationLight dispersionDispersion (optics)PopulationAnalytical chemistryMineralogyMean cell hemoglobin concentrationOccupational exposureeducationRefractive indexSPIE Proceedings
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Comparison of transflection and transmission FTIR imaging measurements performed on differentially fixed tissue sections

2015

The widespread and cost-effective use of transflection substrates in Fourier transform infrared (FTIR) imaging of clinical samples is affected by the presence of artefacts including the electric field standing wave (EFSW) and contributions from light dispersion. For IR-based diagnostics, the manifestation of undesirable artifacts can distort the spectra and lead to erroneous diagnosis. Nevertheless, there is no clear consensus in the literature about the degree of influence of these effects. The aim of this work is to contribute to this discussion by comparing transflection and transmission images of the same tissue. For this purpose two adjacent sections of the same tissue (lymphoma sample…

Tissue FixationLymphomaChemistryOptical ImagingAnalytical chemistryHyperspectral imagingBiochemistryAnalytical ChemistryAbsorbancesymbols.namesakeNuclear magnetic resonanceTissue sectionsFourier transformTransmission (telecommunications)Light dispersionSpectroscopy Fourier Transform InfraredElectrochemistrysymbolsEnvironmental ChemistryImage acquisitionFourier transform infrared spectroscopyArtifactsSpectroscopy
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