Your search keyword '"Gabriel Pare"' showing total 13 results

1. Condenser operating conditions effects on dielectric liquid boiling and condensation heat transfer in closed systems

Author

Gabriel Parent, Omidreza Ghaffari, Yaser Nabavi Larimi, and Julien Sylvestre

Subjects

Condensation, Boiling, Thermosyphon, Dielectric fluid, Electronics cooling, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Localized boiling and enclosed condensation of a dielectric liquid in a thermosyphon can be used as an alternative to traditional air cooling for high performance microprocessors. A small quantity of dielectric fluid boils at the surface of the microprocessor and is condensed by a heat exchanger, which removes the heat from the system. Here, the heat exchanger was a water-fed cold plate cooling a round fins heat sink. Such a thermosyphon can remove large heat fluxes and increase the energy efficiency of data centers.An experimental setup was built to measure the impact of various operating parameters on the thermal resistances of the thermosyphon. The thermal resistances that were considered were the boiling resistance between the heater and the dielectric fluid, the condensation resistance between the dielectric fluid and the cold water feeding the cold plate, and their sum (the total thermal resistance). The operating parameters tested were the cold plate inlet flow rate (0.2 L/min and 1 L/min), the cold plate inlet temperature (15 °C and 24 °C) and the filling ratio of the enclosure (33 %, 66 % and 88 %).It was observed that changing the filling ratio did not have a significant impact on the thermal resistances of the thermosyphon. Increasing the cold plate inlet flow rate from 0.2 L/min to 1 L/min and decreasing the cold plate inlet temperature from 24 °C to 15 °C both led to significantly lower total thermal resistance. However, increasing the flow rate lowered the rate at which the pressure increased with the amount of heat removed from the system, while this rate did not change when decreasing the cold plate inlet temperature.These observations could be properly explained by a simple analytical model, with a single free parameter (increasing the thermal resistance of the heat sink for the lowest cold plate flow rates). With the free parameter adjusted to the data, the model had a root-mean square error of 1.8 °C and a maximum error of 6 °C, over all measured conditions.This study demonstrates how changing the filling ratio or the cold plate inlet temperature and flow rate have an impact on the pressure, the temperature and the thermal resistances inside the thermosyphon. This is a first step in evaluating the energetic and economic efficiency of the thermosyphon solution for its future integration in data centers.

Published

2024

2. Compact silicon photonics-based laser modules for FM-CW LIDAR and RFOG

Author

Alexandre Desbiens, Sylvain Boudreau, Michel Morin, A. Babin, Charles-Andre Davidson, Gabriel Pare-Olivier, Louis-Philippe Perron, Keven Bedard, Emile Girard-Deschenes, S. Ayotte, Simon Bastien, Guy Rousseau, Mathieu Laplante, Ghislain Bilodeau, Dominque D'amato, Benoit Filion, Jocelyn Blanchet-Letourneau, Philippe Chretien, and F. Costin

Subjects

Physics, Silicon photonics, business.industry, Linearity, Gyroscope, Laser, Chip, law.invention, Semiconductor laser theory, Interferometry, Resonator, law, Optoelectronics, business

Abstract

Narrow-linewidth semiconductor lasers, micro-optics, silicon photonics (SiP), low noise electronics and high-density packaging are key elements for the development of compact high-end light sources for sensing. A laser module for the interrogation of an RFOG (Resonant Fiber-Optic Gyroscope) includes three distributed feedback lasers coupled with micro-lenses to a multi-component SiP chip that performs beat note detection and several other functions. The lasers and SiP chip are packaged in a 2.6 cm3 multi-layer ceramic package, a 4x volume reduction over a first generation module. The package interfaces with 92 electrical pins and two fiber pigtails, one carrying the signals from a master and slave lasers, another carrying that from a second slave laser. The complete laser source including electronics is 60 mm in diameter and 23 mm in height, a 10x volume improvement over a previous version. The master laser can be locked to the RFOG resonator with a loop bandwidth greater than 1 MHz. The slave lasers are offset frequency locked to the master laser with loop bandwidths greater than 100 MHz. This high performance source is compact, automated, robust, and remains locked for days. A lighter version of this laser module for FM-CW LIDAR applications produces an output optical frequency that varies linearly as a function of the electrical drive. A triangular modulation at 100 kHz with a greater than 1 GHz amplitude has been demonstrated with a linearity noise near 1 MHz as measured through a 150 m unbalanced interferometer.

Published

2020

3. Image-Guided Fluorescence Endomicroscopy: From Macro- to Micro-Imaging of Radiation-Induced Pulmonary Fibrosis

Author

Jessica R. Perez, Gabriel Pare, N. Ybarra, Olivier Lesur, Jan Seuntjens, Issam El Naqa, Monica Serban, and Frederic Chagnon

Subjects

0301 basic medicine, Pulmonary Fibrosis, medicine.medical_treatment, lcsh:Medicine, Radiation induced, Article, Fluorescence, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Pulmonary fibrosis, Endomicroscopy, Animals, Medicine, Radiation Injuries, lcsh:Science, Lung, Multidisciplinary, Anatomical location, business.industry, lcsh:R, Endoscopy, medicine.disease, Rats, 3. Good health, Radiation therapy, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Female, lcsh:Q, Tomography, Tomography, X-Ray Computed, business, Nuclear medicine

Abstract

Radiation-induced pulmonary fibrosis (RIPF) is a debilitating side effect of radiation therapy (RT) of several cancers including lung and breast cancers. Current clinical methods to assess and monitor RIPF involve diagnostic computed tomography (CT) imaging, which is restricted to anatomical macroscopic changes. Confocal laser endomicroscopy (CLE) or fluorescence endomicroscopy (FE) in combination with a fibrosis-targeted fluorescent probe allows to visualize RIPF in real-time at the microscopic level. However, a major limitation of FE imaging is the lack of anatomical localization of the endomicroscope within the lung. In this work, we proposed and validated the use of x-ray fluoroscopy-guidance in a rat model of RIPF to pinpoint the location of the endomicroscope during FE imaging and map it back to its anatomical location in the corresponding CT image. For varying endomicroscope positions, we observed a positive correlation between CT and FE imaging as indicated by the significant association between increased lung density on CT and the presence of fluorescent fiber structures with FE in RT cases compared to Control. Combining multimodality imaging allows visualization and quantification of molecular processes at specific locations within the injured lung. The proposed image-guided FE method can be extended to other disease models and is amenable to clinical translation for assessing and monitoring fibrotic damage.

Published

2017

4. Compact Optical Coherent Receiver for Avionics Applications

Author

Michel Morin, A. Babin, Pascal Deladurantaye, Gabriel Pare-Olivier, Mathieu Laplante, Emile Girard-Deschenes, Philippe Chretien, Louis-Philippe Perron, S. Ayotte, Mathieu Drolet, Jocelyn Blanchet-Letourneau, Guillaume Brochu, Ghislain Bilodeau, Dominique D'amato, F. Costin, and Charles-Andre Davidson

Subjects

Physics, Optical fiber, business.industry, Local oscillator, Detector, Physics::Optics, 02 engineering and technology, law.invention, 020210 optoelectronics & photonics, Fiber Bragg grating, Intermediate frequency, law, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Radio frequency, Photonics, Optical filter, business

Abstract

An optical coherent receiver for the down conversion of radio frequency (RF) signals from 10-18 GHz to 2 GHz is presented. Light from a distributed feedback semiconductor laser is split between two lithium niobate Mach-Zehnder modulators driven either by a tunable local oscillator (LO) tone or a RF signal coming, for example, from a receiving antenna. The modulated light signals are combined with an optical coupler and filtered by two fiber Bragg gratings (FBG) that select one optical sideband from each signal. Detection of the filtered light by a balanced photo-detector produces an electrical signal at an intermediate frequency equal to the beat difference between the RF and LO frequencies. Most current RF photonic systems are made from individually packaged devices that are interconnected with fiber-optic cables. In order to reduce size and weight and make the coherent receiver suitable for use in smaller airborne and mobile platforms, optical and opto-electronic components are packaged within a common enclosure where light routing is performed by micro-optics. A printed circuit board (PCB) is included within the module. It comprises a micro-processor to control and monitor the laser, the FBGs and thermo-electric coolers to ensure a robust operation over time and fluctuating environmental conditions. The module including the PCB, laser, modulators, optics, optical filters and balanced detector has a size of 89 x 64 x 32 mm3.

Published

2018

5. Integrated Multi-wavelength Laser Source for Sensing

Author

Dominique D'amato, Bilodeau Ghislain, F. Costin, A. Babin, Charles-Andre Davidson, Benoit Filion, Keven Bedard, Jocelyn Blanchet-Letourneau, S. Ayotte, Philippe Chretien, Louis-Philippe Perron, Emile Girard-Deschenes, Gabriel Pare-Olivier, Michel Morin, and Mathieu Laplante

Subjects

Optical fiber, Materials science, Silicon photonics, business.industry, Gyroscope, 02 engineering and technology, 021001 nanoscience & nanotechnology, Laser, 01 natural sciences, law.invention, Semiconductor laser theory, Resonator, Printed circuit board, law, Fiber laser, 0103 physical sciences, Optoelectronics, 010306 general physics, 0210 nano-technology, business

Abstract

A compact three-laser source for optical sensing is presented. It is based on a low-noise implementation of the Pound-Drever-Hall method and comprises high-bandwidth optical phase-locked loops. The outputs from three semiconductor distributed feedback lasers, mounted on thermo-electric coolers (TEC), are coupled with micro-lenses into a silicon photonics (SiP) chip that performs beat note detection and several other functions. The chip comprises phase modulators, variable optical attenuators, multi-mode-interference couplers, variable ratio tap couplers, integrated photodiodes and optical fiber butt-couplers. Electrical connections between a metallized ceramic and the TECs, lasers and SiP chip are achieved by wirebonds. All these components stand within a 35 mm by 35 mm package which is interfaced with 90 electrical pins and two fiber pigtails. One pigtail carries the signals from a master and slave lasers, while another carries that from a second slave laser. The pins are soldered to a printed circuit board featuring a micro-processor that controls and monitors the system to ensure stable operation over fluctuating environmental conditions. This highly adaptable multi-laser source can address various sensing applications requiring the tracking of up to three narrow spectral features with a high bandwidth. It is used to sense a fiber-based ring resonator emulating a resonant fiber optics gyroscope. The master laser is locked to the resonator with a loop bandwidth greater than 1 MHz. The slave lasers are offset frequency locked to the master laser with loop bandwidths greater than 100 MHz. This high performance source is compact, automated, robust, and remains locked for days.

Published

2018

6. La teoría de la música como intersección entre el análisis armónico y la teoría de números: Pasos hacia una integración disciplinar

Author

Gabriel Pareyón

Subjects

Music, M1-5000, Literature on music, ML1-3930

Abstract

En la música, las nociones de materia, energía y tiempo se sintetizan en juegos de simetría y periodicidad a través del pulso y del ritmo –y silencios como modificadores suyos, por supresión y énfasis–, cuyas composiciones producen complejidad en sucesivos órdenes de autoconstrucción: colecciones tonales, melodías, acordes, texturas, timbres, masas, formas y estilos a lo largo de épocas. En la física, el pulso y el ritmo son descritos por analogías cuánticas, moleculares, cristalinas, gravitatorias, dinámicas y aun caóticas, tratadas bajo modelos matemáticos: objetos, cantidades, matrices, vectores, funciones, campos y operadores. En cierto modo, si se habla de análisis armónico –señales y ondas y de teoría de números –en los distintos niveles de la aritmética–, es necesario especificar un área de especialización: física, música o matemáticas, con particularidades propias para cada una de ellas. No obstante, la música participa de este conocimiento como una intersección donde las pruebas físicas entran en consonancia con la modelación matemática. La teoría de la música es, de hecho, una tradición que abarca estudios cognitivos y epistémicos que reflejan las cualidades de dicha intersección; por lo que su estudio ayuda a entender el modo en que el análisis armónico y la teoría de números se comunican. Este trabajo postula cómo la música tiene a la vez capacidades referentes, expresivas y simbólicas, pero también propiedades de un metalenguaje inter-aglutinante especial. La mayor atención se enfoca en explicar sus fundamentos teóricos para valorarlos en convergencia con los fundamentos del análisis armónico y la teoría de números. Palabras clave: análisis armónico, Fourier, teoría de números, geometría, números primos Music theory as an intersection domain between harmonic analysis and number theory: Towards a disciplinary integration Abstract In music, the notions of matter, energy and time synthesize in games of symmetry and periodicity through pulse and rhythm—and silences as their modifiers, by suppression and emphasis—, whose compositions produce complexity in successive orders of self-construction: tonal collections, melodies, chords, textures, timbres, masses, forms and styles throughout epochs. In physics, pulse and rhythm correspond to quantum, molecular, crystalline, gravitational, dynamic, and even chaotic analogies, treated under mathematical models: objects, quantities, matrices, vectors, functions, fields, and operators. In a way, if we are talking about harmonic analysis—signals and waves—and number theory—at the different levels of arithmetic—, it is necessary to specify an area of specialization: physics, music or mathematics, with their own particularities for each one of them. However, music participates in this knowledge as an intersection where physical evidence is in line with mathematical modeling. Music theory is, in fact, a tradition that encompasses cognitive and epistemic studies that reflect the qualities of that intersection; so its study helps to understand the way in which harmonic analysis and number theory communicate. This work postulates how music has referent, expressive and symbolic capacities, but also properties of a special inter-agglutinative metalanguage. The focus is on explaining its theoretical foundations to assess them in convergence with the foundations of harmonic analysis and number theory. Keywords: harmonic analysis, Fourier, number theory, geometry, prime numbers

Published

2023

7. Dynamic accessibility by car to tertiary care emergency services in Cali, Colombia, in 2020: cross-sectional equity analyses using travel time big data from a Google API

Author

Maria B Ospina, Luis Gabriel Cuervo, Oscar Franco, Rodrigo Guerrero, Eliana Martínez-Herrera, Lyda Osorio, Janet Hatcher-Roberts, Daniel Cuervo, Maria Olga Bula, Luis Fernando Pinilla, Felipe Piquero, Ciro Jaramillo, Freddy Enrique Agredo Lemos, Germán Ávila Rodríguez, Alberto Concha-Eastman, Crhistian García, Fernando Rafael Martínez Arámbula, Eliana Martínez Herrera, María Fernanda Merino Juárez, Gabriel Paredes, David Paredes-Zapata, Oscar Rojas, Myriam Rosero Hernández, María Fernanda Tobar-Blandón, and Pablo Zapata Murillo

Subjects

Medicine

Abstract

Objectives To test a new approach to characterise accessibility to tertiary care emergency health services in urban Cali and assess the links between accessibility and sociodemographic factors relevant to health equity.Design The impact of traffic congestion on accessibility to tertiary care emergency departments was studied with an equity perspective, using a web-based digital platform that integrated publicly available digital data, including sociodemographic characteristics of the population and places of residence with travel times.Setting and participants Cali, Colombia (population 2.258 million in 2020) using geographic and sociodemographic data. The study used predicted travel times downloaded for a week in July 2020 and a week in November 2020.Primary and secondary outcomes The share of the population within a 15 min journey by car from the place of residence to the tertiary care emergency department with the shortest journey (ie, 15 min accessibility rate (15mAR)) at peak-traffic congestion hours. Sociodemographic characteristics were disaggregated for equity analyses. A time-series bivariate analysis explored accessibility rates versus housing stratification.Results Traffic congestion sharply reduces accessibility to tertiary emergency care (eg, 15mAR was 36.8% during peak-traffic hours vs 84.4% during free-flow hours for the week of 6–12 July 2020). Traffic congestion sharply reduces accessibility to tertiary emergency care. The greatest impact fell on specific ethnic groups, people with less educational attainment and those living in low-income households or on the periphery of Cali (15mAR: 8.1% peak traffic vs 51% free-flow traffic). These populations face longer average travel times to health services than the average population.Conclusions These findings suggest that health services and land use planning should prioritise travel times over travel distance and integrate them into urban planning. Existing technology and data can reveal inequities by integrating sociodemographic data with accurate travel times to health services estimates, providing the basis for valuable indicators.

Published

2022

8. Discussões sobre as dinâmicas sociais e a prática agrícola na sociedade romana a partir do relato da acusação de ueneficium contra C. Fúrio Crésimo, segundo Plínio, o Velho

Author

Fabiana Martins Nascimento and Gabriel Paredes Teixeira

Subjects

História Natural, Veneficium, Agricultura, Plínio, o velho, Liberto, History of the Greco-Roman World, DE1-100, Greek language and literature. Latin language and literature, PA

Abstract

As esferas social e econômica na sociedade romana, assim como na contemporaneidade, estavam relacionadas de maneira intrínseca. Tal relação pode ser observada no caso apresentado por Plínio no oitavo capítulo do livro 18 da sua História Natural. Nele, o autor apresenta o exemplum do liberto Fúrio Crésimo, acusado por seus ricos vizinhos de roubar suas colheitas a partir de meios sobrenaturais (ueneficium). Levado ao tribunal, Fúrio é absolvido da pena ao convencer o júri de não haver cometido crime algum. A narrativa e seu contexto de apresentação na obra nos permitem perscrutar diversas questões relativas às dinâmicas socioeconômicas na sociedade romana, conforme propomos realizar no presente artigo.

Published

2022

9. Manejo de la cesación tabáquica entre residentes de cardiología de Iberoamérica

Author

Sebastián García-Zamora, Augusto J. Lépori, Antonio Jordán, Yalile Nauhm, Romina Roif, Gabriel Paredes, Alan Sigal, Marcos Ferrández-Escarabajal, Laura Pulido, and Jesús Álvarez-García

Subjects

Cesación tabáquica. Nicotina. Vareniclina. Bupropión. Formación. Residentes cardiología., Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Introducción y objetivos: Si bien los cardiólogos asisten cotidianamente a pacientes que sufren daño por el tabaquismo, no se conoce el grado de formación que reciben sobre esta problemática durante su residencia. Debido a ello nos propusimos evaluar las preferencias y prácticas de los residentes de cardiología para la cesación tabáquica de los pacientes que asisten. Materiales y métodos: Encuesta cerrada, prefijada, voluntaria y anónima entre médicos que realizaban la especialidad de cardiología en cinco países de Latinoamérica y España. Resultados: Se encuestaron 716 residentes: un 62.4% de Argentina, un 19% de México, un 6.8% de España, un 6.7% de Chile, un 3.2% de Uruguay y un 1.9% de Paraguay. Con respecto a la importancia que asignaban a esta problemática (empleando una escala de 1-10), el 85.8% le asignó a esta pregunta una puntuación de 8 o mayor. Mientras el 80.5% de los participantes expresó dar consejo breve antitabáquico sistemáticamente, solamente un 27.7% empleaban terapia farmacológica con este fin. Entre quienes no empleaban terapia farmacológica, el 58.3% manifestó que el motivo era no encontrarse familiarizados con los tratamientos. El 62.9% de los encuestados dijo no haber recibido ningún tipo de formación en esta problemática. Aquellos residentes que recibieron algún tipo de formación manifestaron sentirse más preparados (p < 0.0001). Conclusión: Encontramos un bajo conocimiento sobre el tratamiento farmacológico y relativamente poca seguridad por parte de los residentes de cardiología para brindar asistencia en cesación tabáquica. Consideramos esencial incluir este tópico en la formación de los futuros cardiólogos a fin de lograr una prevención cardiovascular más integral.

Published

2021

10. Los Estados Federales y el Derecho Internacional.

Author

Gabriel Paredi

Subjects

Political science, International relations, JZ2-6530

Abstract

El presente trabajo presenta in extenso la proyección internacional de los Estados federados, temática de gran trascendencia que -sin embargo- no ha merecido más que un tratamiento somero por parte de constitucionalistas e internacionalistas. El autor aborda desde basándose en el tratamiento de los Estados federados como sujetos del derecho internacional y analizando el tema tanto desde la óptica interna como desde la internacional.

Published

2018

11. INDICIOS DEL PAPEL PREPONDERANTE DEL ÁLGEBRA EN LA EMERGENCIA DE LAS FUNCIONES ELÍPTICAS

Author

LEONARDO SOLANILLA, ANA CELI TAMAYO, and GABRIEL PAREJA

Subjects

Abel, funciones elípticas, Jacobi, Variable Compleja, Science (General), Q1-390

Abstract

En el transcurso de un estudio sobre la emergencia del concepto de función elíptica en el siglo XIX hemos descubierto con sorpresa que el papel del Álgebra habría sido tanto, o quizás más importante, que el del mismo cálculo de las funciones complejas para el desenvolvimiento histórico de este campo de las Matemáticas. Para defender esta afirmación presentamos dos análisis. Uno de ellos se basa en las Recherches de Abel, el otro en los Fundamenta nova de Jacobi.

Published

2013

12. Bibliografía i acció apostólica del Vble. P. Fr. Antoni Llinás de l'observancia de Mallorca

Author

Tous, Gabriel, pare

Subjects

Religió

Abstract

not available

Published

1922

13. P'el Venerable P. Antoni Llinás : ¡Artenencs!

Author

Tous, Gabriel, pare and Tous, Gabriel, pare

Abstract

not available

Published

1922