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Lola Medina

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Papers by Lola Medina

Research paper thumbnail of Determination of methanol and methyl tert-butyl ether in gasoline by infrared spectroscopy using the CIRCLE cell and multivariate calibration

Applied Spectroscopy, 1993

The feasibility of predicting concentrations of methanol and methyl tertbutyl ether (MTBE) in gas... more The feasibility of predicting concentrations of methanol and methyl tertbutyl ether (MTBE) in gasolines from the mid-infrared absorption spectra was investigated. The C-O bond stretching band region was related to these oxygenated compounds' levels with the aid of multivariate statistics. The sample spectra were taken with the use of a circular internal reflectance (CIRCLE ®) cell. With the use of partial least-squares (PLS) regression a model with 18 samples was built and used to predict a set of 10 gasolines with good agreement. Two additional samples prepared with other brands of gasoline were analyzed with the same model and no matrix effects were found.

Research paper thumbnail of Determination of methanol and methyl tert-butyl ether in gasoline by infrared spectroscopy using the CIRCLE(R) cell and multivariate calibration

Applied Spectroscopy, 1993

The feasibility of predicting concentrations of methanol and methyl tertbutyl ether (MTBE) in gas... more The feasibility of predicting concentrations of methanol and methyl tertbutyl ether (MTBE) in gasolines from the mid-infrared absorption spectra was investigated. The C-O bond stretching band region was related to these oxygenated compounds' levels with the aid of multivariate statistics. The sample spectra were taken with the use of a circular internal reflectance (CIRCLE ®) cell. With the use of partial least-squares (PLS) regression a model with 18 samples was built and used to predict a set of 10 gasolines with good agreement. Two additional samples prepared with other brands of gasoline were analyzed with the same model and no matrix effects were found.

Research paper thumbnail of Detailed design of the imaging magnetograph eXperiment-ImaX: a visible imager magnetograph for the Sunrise mission

In this work, it is described the Imaging Magnetograph eXperiment, IMaX, one of the three postfoc... more In this work, it is described the Imaging Magnetograph eXperiment, IMaX, one of the three postfocal instruments of the Sunrise mission. The Sunrise project consists on a stratospheric balloon with a 1 m aperture telescope, which will fly from the Antarctica within the NASA Long Duration Balloon Program. IMaX will provide vector magnetograms of the solar surface with a spatial resolution of 70 m. This data is relevant for understanding how the magnetic fields emerge in the solar surface, how they couple the photospheric base with the million degrees of temperature of the solar corona and which are the processes that are responsible of the generation of such an immense temperatures. To meet this goal IMaX should work as a high sensitivity polarimeter, high resolution spectrometer and a near diffraction limited imager. Liquid Crystal Variable Retarders will be used as polarization modulators taking advantage of the optical retardation induced by application of low electric fields and avoiding mechanical mechanisms. Therefore, the interest of these devices for aerospace applications is envisaged. The spectral resolution required will be achieved by using a LiNbO3 Fabry-Perot etalon in double pass configuration as spectral filter before the two CCDs detectors. As well phase-diversity techniques will be implemented in order to improve the image quality. Nowadays, IMaX project is in the detailed design phase before fabrication, integration, assembly and verification. This paper briefly describes the current status of the instrument and the technical solutions developed to fulfil the scientific requirements.

Research paper thumbnail of Espaces de bonheur dans le voyage mirbellien

Research paper thumbnail of Determination of methanol and methyl tert-butyl ether in gasoline by infrared spectroscopy using the CIRCLE cell and multivariate calibration

Applied Spectroscopy, 1993

The feasibility of predicting concentrations of methanol and methyl tertbutyl ether (MTBE) in gas... more The feasibility of predicting concentrations of methanol and methyl tertbutyl ether (MTBE) in gasolines from the mid-infrared absorption spectra was investigated. The C-O bond stretching band region was related to these oxygenated compounds' levels with the aid of multivariate statistics. The sample spectra were taken with the use of a circular internal reflectance (CIRCLE ®) cell. With the use of partial least-squares (PLS) regression a model with 18 samples was built and used to predict a set of 10 gasolines with good agreement. Two additional samples prepared with other brands of gasoline were analyzed with the same model and no matrix effects were found.

Research paper thumbnail of Determination of methanol and methyl tert-butyl ether in gasoline by infrared spectroscopy using the CIRCLE(R) cell and multivariate calibration

Applied Spectroscopy, 1993

The feasibility of predicting concentrations of methanol and methyl tertbutyl ether (MTBE) in gas... more The feasibility of predicting concentrations of methanol and methyl tertbutyl ether (MTBE) in gasolines from the mid-infrared absorption spectra was investigated. The C-O bond stretching band region was related to these oxygenated compounds' levels with the aid of multivariate statistics. The sample spectra were taken with the use of a circular internal reflectance (CIRCLE ®) cell. With the use of partial least-squares (PLS) regression a model with 18 samples was built and used to predict a set of 10 gasolines with good agreement. Two additional samples prepared with other brands of gasoline were analyzed with the same model and no matrix effects were found.

Research paper thumbnail of Detailed design of the imaging magnetograph eXperiment-ImaX: a visible imager magnetograph for the Sunrise mission

In this work, it is described the Imaging Magnetograph eXperiment, IMaX, one of the three postfoc... more In this work, it is described the Imaging Magnetograph eXperiment, IMaX, one of the three postfocal instruments of the Sunrise mission. The Sunrise project consists on a stratospheric balloon with a 1 m aperture telescope, which will fly from the Antarctica within the NASA Long Duration Balloon Program. IMaX will provide vector magnetograms of the solar surface with a spatial resolution of 70 m. This data is relevant for understanding how the magnetic fields emerge in the solar surface, how they couple the photospheric base with the million degrees of temperature of the solar corona and which are the processes that are responsible of the generation of such an immense temperatures. To meet this goal IMaX should work as a high sensitivity polarimeter, high resolution spectrometer and a near diffraction limited imager. Liquid Crystal Variable Retarders will be used as polarization modulators taking advantage of the optical retardation induced by application of low electric fields and avoiding mechanical mechanisms. Therefore, the interest of these devices for aerospace applications is envisaged. The spectral resolution required will be achieved by using a LiNbO3 Fabry-Perot etalon in double pass configuration as spectral filter before the two CCDs detectors. As well phase-diversity techniques will be implemented in order to improve the image quality. Nowadays, IMaX project is in the detailed design phase before fabrication, integration, assembly and verification. This paper briefly describes the current status of the instrument and the technical solutions developed to fulfil the scientific requirements.

Research paper thumbnail of Espaces de bonheur dans le voyage mirbellien

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