Yves Chatelon scite author profile

Yves Chatelon

3Publications

3Citation Statements Received

28Citation Statements Given

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Near-field to far-field transformation applied to UHF antennas over lossy ground

Bourey¹,

Darces²,

Chatelon³

et al. 2019

Int. J. Microw. Wireless Technol.

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This paper deals with a near-field to far-field transformation able to predict the radiation of UHF antennas located over a lossy ground. From in-situ near-field measurements, an equivalent set of dipole sources is obtained as a model of the characterized antenna. The paper details the main steps of the transformation and describes the specific experimental set-up designed for the application. Simple directional antennas (monopoles array) as well as more complex omnidirectional antennas (like a biconical antenna as a scaled-down model of a HF antenna) have been tested in realistic environments. This approach is very efficient for separating the contributions of the radiated waves: the sky wave and the surface wave.

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Using a 3d Metamaterial to Enhance the Surface Wave Propagation for High Frequency Over-the-Horizon Radars: From Simulation to Outdoor Measurements

Herbette¹,

Bourey²,

Menelle³

et al. 2021

PIER C

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This article is about the characterization of a 3D metamaterial structure arranged to reinforce the surface wave radiation of antennas relevant to High Frequency (HF) surface wave radars. The use of a corrugated surface with a negative equivalent permittivity placed in the vicinity of the antenna increases the surface wave component of the radiated field. In order to confirm the anticipated performance of that metamaterial antenna, near-field measurements have been realized. Also, an original near far-field transformation technique, taking the surface wave into account, is applied to derive the radiation pattern of the antenna. Measurements were first achieved at reduced scale in UHF band and at full scale in HF band. At 1.1 GHz, they were operated on a small scale mock-up in a semi-anechoic chamber. An electric field acquisition setup installed in an Unmanned Aerial Vehicle (UAV) is used to characterize this antenna under outdoor conditions. This measuring system was especially designed for this application. The obtained results are discussed and enable us to validate the expected behavior of the antenna.

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Comparison Between Simulation and Measurement of EMI Inside a Computer Chassis Mock-Up

Houchouas¹,

Darce²,

Bourey³

et al. 2018

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Yves Chatelon

Near-field to far-field transformation applied to UHF antennas over lossy ground

Using a 3d Metamaterial to Enhance the Surface Wave Propagation for High Frequency Over-the-Horizon Radars: From Simulation to Outdoor Measurements

Comparison Between Simulation and Measurement of EMI Inside a Computer Chassis Mock-Up

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