284 research outputs found
Alimentation électrique des dispositifs de décharge à barrière diélectrique
Les dispositifs DBD se répandent dans un grand nombre d’applications industrielles. Utilisés depuis plus de 150 ans pour la production d’ozone afin de décontaminer l’eau à grande échelle, ils ont depuis la fin du XXème siècle investi les domaines du traitement de surface polymère, du dépôt de couche mince sur substrat et de l’émission lumineuse pour la décontamination ainsi que la médecine. Ces dispositifs sont mis en oeuvre avec un générateur électrique dont les caractéristiques impactent fortement la qualité de la décharge. Ce travail s’inscrit en partie dans le cadre du développement d’une application de traitement de surface à pression atmosphérique. Il aborde la problématique de l’augmentation de la vitesse de dépôt de couche mince au travers des paramètres de l’alimentation électrique. Plus précisément, ce travail s’intéresse aux apports d’une alimentation en courant rectangulaire et aborde également les problématiques liées à la conception et à la fabrication de ce convertisseur. En particulier, une grande attention est portée sur l’étude du transformateur élévateur, car au travers de ses éléments parasites capacitifs, ce dernier peut limiter le transfert de puissance entre la source électrique et le dispositif DBD. Un deuxième aspect de cette étude consiste à entrevoir l’intérêt que revêtent deux convertisseurs statiques dédiés à l’alimentation de dispositifs DBD. Le premier consiste en une alimentation résonante en régime de conduction discontinue dont la particularité est de posséder trois degrés de liberté (fréquence, tension d’entrée et largeur d’impulsion), ce qui lui confère un intérêt exploratoire. Le second convertisseur consiste en une alimentation résonante haute tension et haute fréquence permettant l’éviction du transformateur élévateur, et mettant en oeuvre des interrupteurs au nitrure de gallium (GaN) afin d’atteindre une fréquence de fonctionnement supérieure au mega-Hertz avec un faible niveau de pertes. ABSTRACT : DBD devices are widely used in industrial applications. 150 years ago, they were only employed in ozoners for water decontamination. In recent decades, the progress of knowledge and technology allowed to use them in many other applications like surface treatment, medical applications and light emission. Actually, these devices are supplied with an electrical source which parameters can strongly impact the discharge behaviour. An important part of this work comes within the framework of the development of an atmospheric pressure surface treatment involving DBDs. The issue of the influence of the generator's electrical parameters on the treatment speed is discussed. In particular, this work focuses on the merits of a rectangular shaped current source concerning the behavior of an atmospheric pressure discharge in nitrogen ; the problems related to the design and the fabrication of such a converter are highlighted. The design of the high voltage transformer is then described in detail since its lumped elements play an important role as they can strongly limit the power transfer between the electrical source and the DBD device. A second aspect of this work is to establish the interests of two particular power converters. The first one is a resonant converter operating in a discontinuous conduction mode ; its merits is to exhibit three degrees of freedom (input voltage, frequency, current pulse width) instead of two, which is a tremendous asset for exploring purposes. The second one is a high-frequency resonant converter where a resonant inductance and the DBD device structural capacitances are used instead of a high voltage transformer to perform the voltage amplification, which circumvents the issue related to the transformer parasitic elements. This converter is based on GaN HEMT switches in order to reach a low semiconductor losses level and a fairly high operating frequency (above the mega-Hertz)
Competition between Spin Echo and Spin Self-Rephasing in a Trapped Atom Interferometer
We perform Ramsey interferometry on an ultracold 87Rb ensemble confined in an
optical dipoletrap. We use a \pi-pulse set at the middle of the interferometer
to restore the coherence of the spinensemble by canceling out phase
inhomogeneities and creating a spin echo in the contrast. However,for high
atomic densities, we observe the opposite behavior: the \pi-pulse accelerates
the dephasingof the spin ensemble leading to a faster contrast decay of the
interferometer. We understand thisphenomenon as a competition between the
spin-echo technique and an exchange-interaction drivenspin self-rephasing
mechanism based on the identical spin rotation effect. Our experimental data
iswell reproduced by a numerical model
Alimentation électrique des dispositifs à décharge à barrière diélectrique (DBD)
L’utilisation d’une Décharge contrôlée par Barrière Diélectrique (DBD) permet d’obtenir un plasma froid à pression atmosphérique dont une des utilisations est le traitement de surface. Actuellement, de tels dispositifs sont alimentés par des sources de tension variable (amplitude, fréquence) : la décharge obtenue est le plus souvent filamentaire (défavorable à la qualité du traitement de surface), notamment lorsque l’on souhaite transmettre une puissance élevée. Des études récentes menées pour l’alimentation de lampes à excimères [1] ont montré l’intérêt de remplacer la source de tension par une source de courant, afin d’obtenir la décharge sur une plus grande plage de puissance et de fréquence, de disposer de degrés de liberté permettant le contrôle de la puissance transmise. Cet article est dédié à l’étude théorique et expérimentale d’une structure d’alimentation électrique de ce type
The Heliophysics Feature Catalogue, a tool for the study of solar features
The behavior of filaments and prominences during the Solar Cycle is a signature of Sun's activity. It is therefore important to follow their evolution during the cycle, in order to be able to associate it with the various phases of the Solar Cycle as well as with other Solar features or events. The virtual observatory HELIO provides information that can be used for such studies, especially its Heliophysics Feature Catalogue gives a unique access to the description of various features during around one cycle. Features available are: filaments, prominences, photospheric and coronal active regions, coronal radio emission, type III radio bursts, coronal holes and sunspots. Web interfaces allow the user to query data for these features. Useful information can also be shared with other HELIO services, such as Heliophysics Event Catalogue, which provides access to dozens of tables of events such as flares, CME
Current-Mode Approach in Power Supplies for DBD Excilamps: Review of 4 Topologies
This document reviews the current-mode supply approach for dielectric barrier discharge (DBD) excilamps. It briefly demonstrates why this mode assures the control of the power injected into the DBD. Considerations with the step-up transformer required for the correct operation of the current-mode are developed. This document shows and compares four different converter topologies that comply with this principle. This comparison is made in terms of electric efficiency and luminous efficacy using experimental measurements
Designing the high voltage transformer of power supplies for DBD: Windings arrangment to reduce the parasitic capacitive effects
In Dielectric Barrier Discharges (DBDs), the control of the power transfer, from the low-voltage static converter to the high voltage DBD, is strongly affected by the parasitic capacitive effects of the step-up transformer. Minimizing these capacitances is of major importance and this paper aims to establish and validate analytical expressions in order to predict the values of the parasitic capacitances of high ratio, step-up transformers, according to different windings arrangements using cylindrical conductors. Afterward, experimental validations are performed on three transformers which have been realized according to same specifications, in order to show the accuracy of the method and to understand the influence the winding arrangements on the capacitive parasitic effects
Global SOLPS-ITER and ERO2.0 coupling in a linear device for the study of plasma-wall interaction in helium plasma
Plasma–wall interaction (PWI) is a great challenge in the development of a nuclear fusion
power plant. To investigate phenomena like erosion of plasma-facing components, impurity
transport and redeposition, one needs reliable numerical tools for the description of both the
plasma and the material evolution. The development of such tools is essential to guide the
design and interpretation of experiments in present and future fusion devices. This contribution
presents the first global simulation of PWI processes in a linear plasma device mimicking the
boundary plasma conditions in toroidal ones, including both the description of plasma and
impurity transport and of plasma-facing material evolution. This integrated description is
obtained by coupling two of the state-of-the-art numerical codes employed to model the plasma
boundary and the PWI, namely SOLPS-ITER and ERO2.0. Investigation of helium plasma is
also of primary importance due to the role helium will have during ITER pre-fusion power
operation, when it is planned to be used as one of the main plasma species, as well as fusion ash
in full power operation. The plasma background is simulated by SOLPS-ITER and the set of
atomic reactions for helium plasmas is updated, including charge-exchange and radiative heat
losses. ERO2.0 is used to assess the surface erosion in the GyM vessel, using different wall
materials (e.g. carbon, iron or tungsten) and applying different biasing voltage. Eroded particles
are followed within the plasma to assess their redeposition location. The ionization probability
of the different materials in the GyM plasma is inferred through the energy distribution of
impacting particles and its effects on migration are investigated
A High Voltage High Frequency Resonant Inverter for Supplying DBD Devices with Short Discharge Current Pulses
In this paper, the merits of a high-frequency resonant converter for supplying dielectric barrier discharges (DBD) devices are established. It is shown that, thanks to its high-frequency operating condition, such a converter allows to supply DBD devices with short discharge current pulses, a high repetition rate, and to control the injected power. In addition, such a topology eliminates the matter of connecting a high-voltage transformer directly across the DBD device and avoids the issues related to the parasitic capacitances of the latter which disturbs the control the power transfer to the plasma. The design issues of the converter, including the inverter and its switches, the resonant inductor, and the parameter drift compensation are studied. An experimental validation is performed: a mega Hertz resonant converter using GaN FET switches has been manufactured and tested with an excimer lamp
Parameters Identification and Gas Behavior Characterization of DBD Systems
This paper proposes an efficient modeling and an identification method for dielectric barrier discharge (DBD) systems, based on input–output (current–voltage) experimental measurements. The DBD is modeled using an equivalent electric circuit associated with a differential equation that describes the dynamics of its conductance. This equation assumes a homogeneous behavior of the gas. This paper introduces a series of polynomial terms of the current of the gas into the conductance equation. These terms, after identification, are a very useful tool to analyze the physical mechanisms that take place in the gas. The identification process also returns the numerical values of other DBD parameters, such as associated capacitances and the breakdown voltage. In addition, an asymmetric model for the gas, which considers the direction of the current, is proposed to consider the possible geometrical dissimilarity between the two electrodes of the DBD setup. Experimental measurements taken on two different DBD applications are used for validating the proposed approach
A method for the automated detection of solar radio bursts in dynamic spectra
The variability of the solar corona, including flares and coronal mass ejections, affects the space environment of the Earth (heating and ionization of the atmosphere, magnetic field disturbances, and bombardment by high-energy particles). Electromagnetic emissions are the first signatures of a solar eruptive event which by modifying the electron density in the ionosphere may affect airborne technology and radio communications systems. In this paper, we present a new method to detect automatically radio bursts using data from the Nançay Decametre Array (NDA) in the band 10 MHz–80 MHz. This method starts with eliminating unwanted signals (Radio-Frequency Interference, RFI and Calibration signals) by analyzing the dynamic spectrum of the signal recorded in time. Then, a gradient median filter is applied to smooth and to reduce the variability of the signal. After denoising the signal, an automated solar radio burst detection system is applied. This system is based on a sequential procedure with adaptive constant-false-alarm rate (CFAR like detector) aimed to extract the spectra of major solar bursts. To this end, a semi-automatic software package is also developed to create a data base of all possible events (type II, III, IV or other) that could be detected and used for our performance assessment
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