SiPM used as fast Photon-Counting Module and for Multiphoton Detection

We demonstrate fast counting and multiphoton detection abilities of a Silicon Photo Multiplier (SiPM). In fast counting mode we are able to detect two consecutive photons separated by only 2.3 ns corresponding to 430 MHz. The counting efficiency for small optical intensities at a wavelength of 532 nm was found to be around 8.3% with a dark count rate of 50 kHz at T=-7 degrees Celsius. Using the SiPM in multiphoton detection mode, we find a good signal discrimination for different numbers of simultaneous detected photons.Comment: 11 pages, 13 figure

Structure of Polyelectrolytes with Mixed of Monovalent and Divalent Counterions: Poisson-Boltzmann Analysis and SAXS Measurements

International audienceWe have studied by Small Angle X Ray Scattering (SAXS) the structure of salt free polyelectrolytes solutions containing monovalent and divalent counterions. We have considered mixtures of sulfonated polystyrene with monovalent (Na+) and divalent (Ca2+) counterions and measured the position of the scattering peak, q*, as a function of the monomer concentration cp and the monovalent / divalent content. The aim is to understand the variations observed in q* position when the valence of the counterions is gradually increased. This work is a continuation of a previous study in which first measurements were performed on a rather small number of sodium-PSS / calcium-PSS mixtures. In the present work, we used synchrotron radiation improved the quality of the data and varied the monovalent / divalent ratio with a much finer step. Indeed this gives new interesting results in the ranges of low and large divalent content. We analyzed SAXS results through the isotropic model and scaling approach description introduced by de Gennes et al. and developed by Dobrynin et al.. In this model, one key parameter is the chemical charge and / or the effective charge fraction feff of the polyions. Although the chemical charge fraction f of sodium-PSS and calcium-PSS polyelectrolyte is fixed by the synthesis, the effective charge fraction in mixtures varies with the monovalent / divalent ratio. This quantity has been calculated using the resolution of the Poisson-Boltzmann (PB) equation in the frame of the cell model for various monovalent / divalent contents and different concentrations. Severe deviations can be found in the effective charge values of mixtures at finite concentrations compared to the classical Manning-Oosawa prediction (infinite dilution limiting law). We demonstrate that the evolution of q* is still compatible with the isotropic model and the scaling approach in the low concentration range provided that the divalent content is not too high. In particular, a power law relation q * ~ f eff~ 0.3 can be found which looks very close to the one observed for weakly charged polyelectrolytes ( q*~ f 2 / 7 in good solvent or q*~ f 1/ 3 in theta solvent). Mixtures finally provide a way to adjust the effective charge fraction without changing the chemical nature of the polyions. However this procedure gives improvement of data prediction only in a limited range; it is still not able to fully explain the high concentration range, as well as the high divalent content mixtures. This is certainly due to the fact that the PB equations are not able to take into account the local interactions between monomers and divalent counterions, which goes beyond the mean field approach

Disaster Resilience Education and Research Roadmap for Europe 2030 : ANDROID Report

A disaster resilience education and research roadmap for Europe 2030 has been launched. This roadmap represents an important output of the ANDROID disaster resilience network, bringing together existing literature in the field, as well as the results of various analysis and study projects undertaken by project partners.The roadmap sets out five key challenges and opportunities in moving from 2015 to 2030 and aimed at addressing the challenges of the recently announced Sendai Framework for Disaster Risk Reduction 2015-2030. This roadmap was developed as part of the ANDROID Disaster Resilience Network, led by Professor Richard Haigh of the Global Disaster Resilience Centre (www.hud.ac.uk/gdrc ) at the School of Art, Design and Architecture at the University of Huddersfield, UK. The ANDROID consortium of applied, human, social and natural scientists, supported by international organisations and a stakeholder board, worked together to map the field in disaster resilience education, pool their results and findings, develop interdisciplinary explanations, develop capacity, move forward innovative education agendas, discuss methods, and inform policy development. Further information on ANDROID Disaster Resilience network is available at: http://www.disaster-resilience.netAn ANDROID Disaster Resilience Network ReportANDROI

Characteristic-time of strain induced crystallization of crosslinked natural rubber

International audienceReal time Wide-Angle X-ray Scattering (WAXS) measurements during cyclic tensile tests at high strain rates (from 8 s−1–280 s−1) and at room temperature on crosslinked Natural Rubber (NR) are performed thanks to a specific homemade device. From the observed influence of the frequency on the crystallization index at the maximum sample elongation, a characteristic crystallization time is deduced. This is done taking into account the material self-heating during such unusually high strain rates. Two regimes for the dynamic process of strain induced crystallization are evidenced. For the NR tested, the obtained characteristic time is around 20 ms when the material average elongation during the cyclic test is above a critical elongation value λc. λc is the minimum elongation needed to induce crystallization during low strain rate tensile tests. Moreover, a rapid increase of this characteristic time is found when the average elongation decreases below this critical value

GHz QKD at telecom wavelengths using up-conversion detectors

We have developed a hybrid single photon detection scheme for telecom wavelengths based on nonlinear sum-frequency generation and silicon single-photon avalanche diodes (SPADs). The SPAD devices employed have been designed to have very narrow temporal response, i.e. low jitter, which we can exploit for increasing the allowable bit rate for quantum key distribution. The wavelength conversion is obtained using periodically poled Lithium niobate waveguides (W/Gs). The inherently high efficiency of these W/Gs allows us to use a continuous wave laser to seed the nonlinear conversion so as to have a continuous detection scheme. We also present a 1.27GHz qubit repetition rate, one-way phase encoding, quantum key distribution experiment operating at telecom wavelengths that takes advantage of this detection scheme. The proof of principle experiment shows a system capable of MHz raw count rates with a QBER less than 2% and estimated secure key rates greater than 100 kbit/s over 25 km.Comment: 12 pages, 7 figure

Further Confirmation of Broadly Conserved, Highly Immunogenic Cross-Clade HIV CTL Epitopes for Inclusion in the GAIA HIV Vaccine

Poster Presentation From AIDS Vaccine 2012 Boston, MA, USA. 9-12 September 201

Efectos de la reducción de la densidad de siembra en soja

La densidad óptima está sujeta a las condiciones ambientales y edáficas de cada zona. La variación de la cantidad de plantas afecta la capacidad de crecimiento individual debido la competencia en la línea de siembra. Sin embargo, el efecto en el rendimiento no es lineal, dado que los cambios en la disponibilidad de recursos estimulan mecanismos de compensación. En el caso de la Provincia de Entre Ríos la presencia de suelos vertisoles con elevado contenido de arcillas restringe el crecimiento de los cultivos. Con el objetivo de determinar la posibilidad de lograr altos rendimientos con densidades de siembra inferiores a las utilizadas en los planteos agrícolas actuales y determinar los mecanismos de compensación, se realizaron 4 ensayos durante 2013-2016 en lotes con suelos de textura arcillosa donde se utilizaron cultivares de grupo de madurez V y VI con densidades de 3 a 40 plantas m-2. Las menores densidades de 10 y 15 plantas m-2 presentaron diferencias en la intercepción de radiación en el inicio de llenado de granos. Se hallaron diferencias en el número de granos entre las densidades. Sin embargo, este componente presentó poca variación con una disminución del 15-32% al reducir en 61-80% el stand de plantas. El número de granos fue el componente que explicó las diferencias de rendimiento; A bajas densidades se observó mayor generación de nudos en las ramificaciones y además una mayor capacidad de fijar granos por planta. El peso de granos no fue afectado por la variación en la densidad. Esto permitió determinar que en estos cultivares de GM VI el rendimiento relativo del 95% se logra con densidades de 15-20 pl m-2. En los cultivares de GM V este umbral se encontraría en las 25 pl m-2, donde por debajo de este número de plantas el rendimiento se deprime

Evaluating Short-Term Patient Outcomes after HIV Care Interventions in a Low Resource Setting: Preparing for an HIV Vaccine Trial Site in Bamako, Mali

Poster Presentation From AIDS Vaccine 2012 Boston, MA, USA. 9-12 September 201