Extreme temperature events analyzed with Fast Fourier Transform

Extreme weather and climate events have received increased attention in the last few years, due to the often large loss of agriculture business and exponentially increasing costs associated with them and insurance planning. This increased attention raises the question as to whether extreme weather and climate events are truly increasing, whether this is only a perceived increase exacerbated by enhanced media coverage, or both. There are a number of ways extreme climate events can be defined, such as extreme daily temperatures, extreme daily rainfall amounts, and large areas experiencing unusually warm monthly temperatures, among others. In this study, we will focus our attention in frost and heatstroke events measuring it as the number of days under 0 ºC and number of days with daily maximum over 30ºC monthly respectively. We have studied the trends in these extreme events applying a Fast Fourier Transform to the series to clarify the tendency. Lack of long-term climate data suitable for analysis of extremes is the single biggest obstacle to quantifying whether extreme events have changed over the twentieth century, including high temporal and spatial resolution observations of temperatures. However, several series have been grouped in different ways: chosen the longest series independently, by provinces, by main watersheds and altitude. On the other hand, synthetic series generated by Luna and Balairón (AEMet) were also analyzed. The results obtained by different pooling data are discussed concluding the difficulties to assess the extreme events tendencies and high regional variation in the trends.

Aplicación de la celulosa bacteriana a la restauración del patrimonio bibliográfico y documental en papel

La preservación del patrimonio bibliográfico y documental en papel es uno de los mayores retos a los que se enfrentan bibliotecas y archivos de todo el mundo. La búsqueda de soluciones al problema del papel degradado ha sido abordada históricamente desde dos líneas de trabajo predominantes: la conservación de estos documentos mediante la neutralización de los ácidos presentes en ellos con agentes alcalinos, y su restauración mediante el método de laminación fundamentalmente con papel de origen vegetal. Sin embargo, no se ha explorado con éxito la posibilidad de reforzar la celulosa dañada, y el problema sigue sin encontrar una solución satisfactoria. Hasta el día de hoy, el desarrollo de tratamientos basados en biotecnología en la conservación del patrimonio documental ha sido muy escaso, aunque la capacidad de ciertas bacterias de producir celulosa lleva a plantear su uso en el campo de la conservación y restauración del papel. La celulosa bacteriana (CB) es químicamente idéntica a la celulosa vegetal, pero su organización macroscópica es diferente. Sus propiedades únicas (alto grado de cristalinidad, durabilidad, resistencia y biocompatibilidad) han hecho de este material un excelente recurso en diferentes campos. En el desarrollo de esta tesis se ha estudiado el uso de la celulosa bacteriana, de alta calidad, generada por Gluconacetobacter sucrofermentans CECT 7291, para restaurar documentos deteriorados y consolidar los que puedan estar en peligro de degradación, evitando así su destrucción y proporcionando al papel que se restaura unas buenas propiedades mecánicas, ópticas y estructurales. Se desarrollan asimismo protocolos de trabajo que permitan la aplicación de dicha celulosa. En primer lugar se seleccionó el medio de cultivo que proporcionó una celulosa adecuada para su uso en restauración. Para ello se evaluó el efecto que tienen sobre la celulosa generada las fuentes de carbono y nitrógeno del medio de cultivo, manteniendo como parámetros fijos la temperatura y el pH inicial del medio, y efectuando los ensayos en condiciones estáticas. Se evaluó, también, el efecto que tiene en la CB la adición de un 1% de etanol al medio de cultivo. Las capas de celulosa se recolectaron a cuatro tiempos distintos, caracterizando en cada uno de ellos el medio de cultivo (pH y consumo de fuente de carbono), y las capas de CB (pH, peso seco y propiedades ópticas y mecánicas). La mejor combinación de fuentes de carbono y nitrógeno resultó ser fructosa más extracto de levadura y extracto de maíz, con o sin etanol, que proporcionaban una buena relación entre la producción de celulosa y el consumo de fuente de carbono, y que generaban una capa de celulosa resistente y homogénea. La adición de etanol al medio de cultivo, si bien aumentaba la productividad, causaba un descenso apreciable de pH. Las capas de CB obtenidas con los medios de cultivo optimizados se caracterizaron en términos de sus índices de desgarro y estallido, propiedades ópticas, microscopía electrónica de barrido (SEM), difracción de rayos-X, espectroscopía infrarroja con transformada de Fourier (FTIR), grado de polimerización, ángulos de contacto estáticos y dinámicos, y porosimetría de intrusión de mercurio. Por otro lado hay que tener en cuenta que el material restaurado debe ser estable con el tiempo. Por ello esta misma caracterización se efectuó tras someter a las capas de CB a un proceso de envejecimiento acelerado. Los resultados mostraron que la CB resultante tiene un elevado índice de cristalinidad, baja porosidad interna, buenas propiedades mecánicas, y alta estabilidad en el tiempo. Para desarrollar los protocolos de trabajo que permitan la restauración con esta celulosa optimizada, se comienzó con un proceso de selección de los papeles que van a ser restaurados. Se eligieron tres tipos de papeles modelo, hechos con pasta mecánica, química y filtro (antes y después de ser sometidos a un proceso de envejecimiento acelerado), y tres libros viejos adquiridos en el mercado de segunda mano. Estos ejemplares a restaurar se caracterizaron también en términos de sus propiedades mecánicas y fisicoquímicas. El primer protocolo de restauración con CB que se evaluó fue el denominado laminación. Consiste en aplicar un material de refuerzo al documento mediante el uso de un adhesivo. Se seleccionó para ello la CB producida en el medio de cultivo optimizado con un 1% de etanol. Se aplicó un método de purificación alcalino (1 hora a 90 °C en NaOH al 1%) y como adhesivo se seleccionó almidón de trigo. El proceso de laminación se efectuó también con papel japonés (PJ), un material habitualmente utilizado en conservación, para comparar ambos materiales. Se concluyó que no hay diferencias significativas en las características estudiadas entre los dos tipos de materiales de refuerzo. Se caracterizó el material reforzado y, también, después de sufrir un proceso de envejecimiento acelerado. Los papeles laminados con CB mostraban diferencias más marcadas en las propiedades ópticas que los restaurados con PJ, con respecto a los originales. Sin embargo, el texto era más legible cuando el material de restauración era la CB. La mojabilidad disminuía con ambos tipos de refuerzo, aunque en los papeles laminados con CB de manera más marcada e independiente del material a restaurar. Esto se debe a la estructura cerrada de la CB, que también conduce a una disminución en la permeabilidad al aire. Este estudio sugiere que la CB mejora la calidad del papel deteriorado, sin alterar la información que contiene, y que esta mejora se mantiene a lo largo del tiempo. Por tanto, la CB puede ser utilizada como material de refuerzo para laminar, pudiendo ser más adecuada que el PJ para ciertos tipos de papeles. El otro método de restauración que se estudió fue la generación in situ de la CB sobre el papel a restaurar. Para ello se seleccionó el medio de cultivo sin etanol, ya que el descenso de pH que causaba su presencia podría dañar el documento a restaurar. El método de purificación elegido fue un tratamiento térmico (24 horas a 65 °C), menos agresivo para el material a restaurar que el tratamiento alcalino. Se seleccionó la aplicación del medio de cultivo con la bacteria mediante pincel sobre el material a restaurar. Una vez caracterizado el material restaurado, y éste mismo tras sufrir un proceso de envejecimiento acelerado, se concluyó que no hay modificación apreciable en ninguna característica, salvo en la permeabilidad al aire, que disminuye de manera muy evidente con la generación de CB, dando lugar a un material prácticamente impermeable al aire. En general se puede concluir que ha quedado demostrada la capacidad que tiene la celulosa generada por la bacteria Gluconacetobacter sucrofermentans CECT 7291 para ser utilizada como material de refuerzo en la restauración del patrimonio documental en papel. Asimismo se han desarrollado dos métodos de aplicación, uno ex situ y otro in situ, para efectuar esta tarea de restauración. ABSTRACT The preservation of bibliographic and documentary heritage is one of the biggest challenges that libraries and archives around the world have to face. The search for solutions to the problem of degraded paper has historically been focused from two predominants lines of work: the conservation of these documents by the neutralization of acids in them with alkaline agents, and their restoration by lining them with, basically, cellulose from vegetal sources. However, the possibility of strengthening the damaged cellulose has not been successfully explored, and the problem still persists. Until today, the development of biotechnology-based treatments in documentary heritage conservation has been scarce, although the ability of certain bacteria to produce cellulose takes to propose its use in the field of conservation and restoration of paper. The bacterial cellulose (BC) is chemically identical to the plant cellulose, but its macroscopic organization is different. Its unique properties (high degree of crystallinity, durability, strength and biocompatibility), makes it an excellent resource in different fields. The use of high-quality BC generated by Gluconacetobacter sucrofermentans CECT 7291 to restore damaged documents and to consolidate those that may be at risk of degradation, has been studied in this thesis, trying to prevent the document destruction, and to get reinforced papers with good mechanical, optical and structural properties. Protocols that allow the implementation of the BC as a reinforcing material were also developed. First of all, in order to select the culture medium that provides a cellulose suitable for its use in restoration, it has been evaluated the effect that the carbon and nitrogen sources from the culture medium have on the generated BC, keeping the temperature and the initial pH of the medium as fixed parameters, and performing the culture without shaking. The effect of the addition of 1% ethanol to the culture medium on BC properties was also evaluated. The cellulose layers were collected at four different times, characterizing in all of them the culture medium (pH and carbon source consumption), and the BC sheets (pH, dry weight and optical and mechanical properties). The best combination of carbon and nitrogen sources proved to be fructose plus yeast extract and corn steep liquor, with or without ethanol, which provided a good balance between the cellulose production and the consumption of carbon source, and generating BC sheets homogeneous and resistant. The addition of ethanol to the culture medium increased productivity but caused a noticeable decrement in pH. The BC layers generated with these optimized culture media, have been characterized in terms of tear and burst index, optical properties, scanning electron microscopy (SEM), X-ray diffraction, infrared Fourier transform spectroscopy (FTIR), polymerization degree, static and dynamic contact angles, and mercury intrusion porosimetry. Moreover it must be kept in mind that the restored materials should be stable over time. Therefore, the same characterization was performed after subjecting the layers of BC to an accelerated aging process. The results showed that the BC sheets obtained have a high crystallinity index, low internal porosity, good mechanical properties, and high stability over time. To develop working protocols to use this optimized BC in paper restoration, the first step was to select the samples to restore. Three types of model papers, made from mechanical pulp, chemical pulp and filter paper (before and after an accelerated aging process), and three old books purchased in the second hand market, were chosen. These specimens to be restored were also characterized in terms of its mechanical and physicochemical properties. The first protocol of restoration with BC to be evaluated is called linning. It consists on applying a reinforcing material to the document using an adhesive. The BC produced in the optimized culture medium with 1% ethanol was selected. An alkali purification method (1 hour at 90 °C in 1% NaOH) was applied, and wheat starch was selected as adhesive. The linning process was also carried out with Japanese paper (JP), a material commonly used in conservation, in order to compare both materials. It was concluded that there are no significant differences in the characteristics studied of the two types of reinforcing materials. The reinforced materials were characterized before and after undergoing to an accelerated aging. Papers lined with BC showed more marked differences in the optical properties that papers restored with JP. However, the text was more readable when BC was the reinforcing material. Wettability decreased with both types of reinforcement, although in the papers linned with BC it happened more marked and independently of the sample to restore. This is due to the closed structure of BC, which also leads to a decrement in air permeance. This study suggests that BC improves the deteriorated paper quality, without altering the information on it, and that this improvement is maintained over time. Therefore, the BC may be used as reinforcing material for linning, being more suitable than the JP to restore certain types of papers. The other restoration method to be evaluated was the in situ generation of BC over the paper to restore. For this purpose the culture medium without ethanol was selected, as the pH decrement caused by his presence would damage the document to restore. As purification method a heat treatment (24 hours at 65 °C) was chosen, less aggressive to the material to restore than the alkaline treatment. It was decided to apply the culture medium with the bacteria onto the material to restore with a brush. The reinforced material was characterized before and after an accelerated aging process. It was concluded that there was no substantial change in any characteristic, except for air permeance, which decreases very sharply after the generation of BC, getting a substantially air impermeable material. In general, it can be concluded that the ability of BC produced by Gluconacetobacter sucrofermentans CECT 7291 for its use as a reinforcing material in the restoration of paper documentary heritage, has been demonstrated. Also, two restoration methods, one ex situ and another in situ have been developed.

Si(100) versus Ge(100): Watching the interface formation for the growth of III-V-based solar cells on abundant substrates

We investigated the atomic surface properties of differently prepared silicon and germanium (100) surfaces during metal-organic vapour phase epitaxy/chemical vapour deposition (MOVPE/MOCVD), in particular the impact of the MOVPE ambient, and applied reflectance anisotropy/difference spectroscopy (RAS/RDS) in our MOVPE reactor to in-situ watch and control the preparation on the atomic length scale for subsequent III-V-nucleation. The technological interest in the predominant opto-electronic properties of III-V-compounds drives the research for their heteroepitaxial integration on more abundant and cheaper standard substrates such as Si(100) or Ge(100). In these cases, a general task must be accomplished successfully, i.e. the growth of polar materials on non-polar substrates and, beyond that, very specific variations such as the individual interface formation and the atomic step structure, have to be controlled. Above all, the method of choice to grow industrial relevant high-performance device structures is MOVPE, not normally compatible with surface and interface sensitive characterization tools, which are commonly based on ultrahigh vacuum (UHV) ambients. A dedicated sample transfer system from MOVPE environment to UHV enabled us to benchmark the optical in-situ spectra with results from various surfaces science instruments without considering disruptive contaminants. X-ray photoelectron spectroscopy (XPS) provided direct observation of different terminations such as arsenic and phosphorous and verified oxide removal under various specific process parameters. Absorption lines in Fourier-transform infrared (FTIR) spectra were used to identify specific stretch modes of coupled hydrides and the polarization dependence of the anti-symmetric stretch modes distinguished different dimer orientations. Scanning tunnelling microscopy (STM) studied the atomic arrangement of dimers and steps and tip-induced H-desorption proved the saturation of dangling bonds after preparati- n. In-situ RAS was employed to display details transiently such as the presence of H on the surface at lower temperatures (T <; 800°C) and the absence of Si-H bonds at elevated annealing temperature and also surface terminations. Ge buffer growth by the use of GeH4 enables the preparation of smooth surfaces and leads to a more pronounced amplitude of the features in the spectra which indicates improvements of the surface quality.

Control by ATR-FTIR of surface treatment of cork stoppers and its effect on their mechanical performance

Fourier transform infrared (FTIR) spectroscopy was applied to determine the type of surface treatment and dose used on cork stoppers and to predict the friction between stopper and bottleneck. Agglomerated cork stoppers were finished with two different doses and using two surface treatments: P (paraffin and silicone), 15 and 25 mg/stopper, and S (only silicone), 10 and 15 mg/stopper. FTIR spectra were recorded at five points for each stopper by attenuated total reflectance (ATR). Absorbances at 1,010, 2,916, and 2,963 cm -1 were obtained in each spectrum. Discriminant analysis techniques allowed the treatment, and dose applied to each stopper to be identified from the absorbance values. 91.2% success rates were obtained from individual values and 96.0% from the mean values of each stopper. Spectrometric data also allowed treatment homogeneity to be determined on the stopper surface, and a multiple regression model was used to predict the friction index (If = Fe/Fc) (R 2 = 0.93)

In situ control of Si(100) and Ge(100) surface preparation for the heteroepitaxy of III-V solar cell architectures

Si(100) and Ge(100) substrates essential for subsequent III-V integration were studied in the hydrogen ambient of a metalorganic vapor phase epitaxy reactor. Reflectance anisotropy spectroscopy (RAS) enabled us to distinguish characteristic configurations of vicinal Si(100) in situ: covered with oxide, cleaned by thermal removing in H2, and terminated with monohydrides when cooling in H2 ambient. RAS measurements during cooling in H2 ambient after the oxide removal process revealed a transition from the clean to the monohydride terminated Si(100) surface dependent on process temperature. For vicinal Ge(100) we observed a characteristic RA spectrum after annealing and cooling in H2 ambient. According to results from X-ray photo electron spectroscopy and Fourier-transform infrared spectroscopy the spectrum corresponds to the monohydride terminated Ge(100) surface.

Intermediate Band to Conduction Band optical absorption in ZnTe:O

ZnTe doped with high concentrations of oxygen has been proposed in previous works as intermediate band (IB) material for photovoltaic applications. The existence of extra optical transitions related to the presence of an IB has already been demonstrated in this material and it has been possible to measure the absorption coefficient of the transitions from the valence band (VB) to the IB. In this work we present the first measurement of the absorption coefficient associated to transitions from the IB to the conduction band (CB) in ZnTe:O. The samples used are 4 ?m thick ZnTe layers with or without O in a concentration ~ 1019 cm-3, which have been grown on semi-insulating GaAs substrates by molecular beam epitaxy (MBE). The IB-CB absorption coefficient peaks for photon energies ~ 0.4 eV. It is extracted from reflectance and transmittance spectra measured using Fourier Transform Infrared (FTIR) spectroscopy. Under typical FTIR measurement conditions (low light intensity, broadband spectrum) the absorption coefficient in IB-to-CB transitions reaches 700 cm-1. This is much weaker than the one observed for VB-IB absorption. This result is consistent with the fact that the IB is expected to be nearly empty of electrons under equilibrium conditions in ZnTe(:O). The absorption for VB to IB transitions is also observed in the same samples through reflectance measurements performed in the visible range using a monochromator. These measurements are compared with the quantum efficiency (QE) from solar cells fabricated under similar conditions.

On-line measurement of soil properties without direct spectral response in near infrared spectral range

So far, the majority of reports on on-line measurement considered soil properties with direct spectral responses in near infrared spectroscopy (NIRS). This work reports on the results of on-line measurement of soil properties with indirect spectral responses, e.g. pH, cation exchange capacity (CEC), exchangeable calcium (Caex) and exchangeable magnesium (Mgex) in one field in Bedfordshire in the UK. The on-line sensor consisted of a subsoiler coupled with an AgroSpec mobile, fibre type, visible and near infrared (vis–NIR) spectrophotometer (tec5 Technology for Spectroscopy, Germany), with a measurement range 305–2200 nm to acquire soil spectra in diffuse reflectance mode. General calibration models for the studied soil properties were developed with a partial least squares regression (PLSR) with one-leave-out cross validation, using spectra measured under non-mobile laboratory conditions of 160 soil samples collected from different fields in four farms in Europe, namely, Czech Republic, Denmark, Netherland and UK. A group of 25 samples independent from the calibration set was used as independent validation set. Higher accuracy was obtained for laboratory scanning as compared to on-line scanning of the 25 independent samples. The prediction accuracy for the laboratory and on-line measurements was classified as excellent/very good for pH (RPD = 2.69 and 2.14 and r2 = 0.86 and 0.78, respectively), and moderately good for CEC (RPD = 1.77 and 1.61 and r2 = 0.68 and 0.62, respectively) and Mgex (RPD = 1.72 and 1.49 and r2 = 0.66 and 0.67, respectively). For Caex, very good accuracy was calculated for laboratory method (RPD = 2.19 and r2 = 0.86), as compared to the poor accuracy reported for the on-line method (RPD = 1.30 and r2 = 0.61). The ability of collecting large number of data points per field area (about 12,800 point per 21 ha) and the simultaneous analysis of several soil properties without direct spectral response in the NIR range at relatively high operational speed and appreciable accuracy, encourage the recommendation of the on-line measurement system for site specific fertilisation.

Intermediate band to conduction band optical absorption in ZnTeO

ZnTe doped with high concentrations of oxygen has been proposed in previous works as an intermediate band (IB) material for photovoltaic applications. The existence of extra optical transitions related to the presence of an IB has already been demonstrated in this material and it has been possible to measure the absorption coefficient of the transitions from the valence band (VB) to the IB. In this study, we present the first measurement of the absorption coefficient associated with transitions from the IB to the conduction band (CB) in ZnTeO. The samples used are 4-mum-thick ZnTe layers with or without O in a concentration ~10 19 cm -3, which have been grown on semiinsulating GaAs substrates by molecular beam epitaxy (MBE). The IB-CB absorption coefficient peaks for photon energies ~0.4 eV. It is extracted from reflectance and transmittance spectra measured using Fourier transform infrared (FTIR) spectroscopy. Under typical FTIR measurement conditions (low light intensity, broadband spectrum), the absorption coefficient in IB-to-CB transitions reaches 700 cm -1. This is much weaker than the one observed for VB-IB absorption. This result is consistent with the fact that the IB is expected to be nearly empty of electrons under equilibrium conditions in ZnTe(O).

Analysis of single and binary phases in cerium doped sodium bismuth titanate -Na0.5Bi0.5TiO3 materials

The pure and cerium doped sodium bismuth titanate inorganic powders were synthesized by solid state reaction method. The presence of rhombohedral phase was observed in cerium doped NBT compounds. At 1200 ºC, the 5% of cerium doped NBT compound forms single perovskite phase. The samples of x = 0.10 and 0.15 were heat treated to 1350 ºC, the binary phases with cerium and bismuth oxides were observed. The X-ray diffraction, fourier transform infrared spectroscopy, reflectance spectra, differential thermal analysis and thermo gravimetric analysis were used to analyze the various properties of samples. Moreover, the effects of cerium doping and calcining temperature on NBT samples were investigated. In this work we present our recent results on the synthesis and characterization of Ce doped sodium bismuth titanate materials.