Your search keyword '"De Ferron, Antoine Silvestre"' showing total 3 results

1. Demonstration of a Novel Pulsed Electric Field Technique Generating Neither Conduction Currents Nor Joule Effects.

Author

Novac, Bucur M., Banakhr, Fahd A., Smith, Ivor R., Pecastaing, Laurent, Ruscassie, Robert, de Ferron, Antoine Silvestre, and Pignolet, Pascal

Subjects

*ELECTRIC fields, *JOULE, *ELECTRICAL conductors, *KERR electro-optical effect, *ELECTRO-optical effects, *ESCHERICHIA coli

Abstract

This paper is devoted to a detailed presentation of all aspects involved in a demonstration of a novel pulsed electric field (PEF) technique that does not generate neither conduction currents nor Joule effects. Details are given of both the experimental arrangement and the electro-optic Kerr-effect-based diagnostic used in the measurement of the intense PEFs in water. The results show unequivocally that the novel technique is effective in significantly reducing the initial concentration of Escherichia coli bacteria. Finally, a brief comment on the way ahead is provided. [ABSTRACT FROM AUTHOR]

Published

2014

2. Design and Testing of a Surface Switch for the Dynamic Load Current Multiplier on the SPHINX Microsecond LTD.

Author

Maysonnave, Thomas, Bayol, Frederic, Demol, Gauthier, d'Almeida, Thierry, Morell, Alain, Lassalle, Francis, Grunenwald, Julien, Chuvatin, A. S., Pecastaing, Laurent, and De Ferron, Antoine Silvestre

Subjects

*ELECTRIC transformers, *Z-pinch, *DYNAMIC loads, *PULSED power systems, *ELECTRODE potential, *ELECTRIC fields

Abstract

SPHINX is a microsecond linear transformer driver located at Atomic Energy Comission (CEA) Gramat (France), which can deliver a current pulse of 6 MA within 800 ns in a Z -pinch load. Using the concept of the dynamic load current multiplier (DLCM), which was proposed by Chuvatin, we expect to increase the load current above 6 MA, while decreasing its rise time to \sim300 ns. The DLCM developed by the CEA Gramat and International Technologies for High Pulsed Power (ITHPP) is a compact system made up of concentric electrodes (autotransformer), a dynamic flux extruder (cylindrical wire array), a vacuum convolute (eight post-hole rods), and a closing switch (compact vacuum surface switch). The latter is a key component of the system, which is used to prevent the current from flowing into the load until the inductance builds up due to the implosion of the wire array. This paper presents the design and testing of the DLCM surface switch, resulting from both electrostatic simulations and experiments on the SPHINX generator. These studies, carried out either with or without load (open circuit), were valuable for a first experimental evaluation of the DLCM scheme in a microsecond regime and provided detailed information on the surface switch behavior. [ABSTRACT FROM AUTHOR]

Published

2013

3. MOUNA: An Autonomous, Compact, High-Power, and Wideband Electromagnetic Source Based on a Novel Resonant Pulsed Transformer.

Author

Pecquois, Romain, Pecastaing, Laurent, Rivaletto, Marc, De Ferron, Antoine Silvestre, and Vezinet, René

Subjects

*BROADBAND communication systems, *ELECTROMAGNETISM, *RESONANT vibration, *TESLA coils, *DIPOLE antennas, *ELECTRIC fields

Abstract

Nowadays, a broad range of modern defense applications requires compact pulsed power generators to produce high-power electromagnetic waves. In a conventional design, such generators consist of a primary energy source and an antenna, separated by a power-amplification system, such as a Marx generator or a Tesla transformer, which forwards the energy from the source to the antenna. The present system, however, uses a novel and very compact high-voltage resonant pulsed transformer to drive a dipole antenna. The complete pulsed power source, termed MOUNA (French acronym for “Module Oscillant Utilisant une Nouvelle Architecture”), is composed of a set of batteries, a dc/dc converter for charging four capacitors, four synchronized spark gap switches, a resonant pulsed transformer that can generate 555 kV/265 ns pulses, an oil peaking switch and, during preliminary testing, a dipole antenna. The paper not only provides design details for each system component, but also presents the mechanical arrangement of the complete pulsed power system and the electrical diagnostics, particularly those related to measurement of the resonant transformer output waveform, the line oscillations, and the radiated electric field. [ABSTRACT FROM PUBLISHER]

Published

2012