Three-dimensional electromagnetic calculations for loaded transverse electromagnetic (TEM) transmission cells are presented. Based on those calculations a prediction of the perturbation of the standard uniform field in the TEM-cell, due to the scattering by inhomogeneous structures placed inside the cell cavity, is given. The influence of the dimensions of a lossy structure and its position in the TEM-cell on its absorption of the electromagnetic fields is presented. Knowing the perturbation of the uniform field is important for good interpretation of the biological experimental results.Three-dimensional electromagnetic calculations for loaded transverse electromagnetic (TEM) transmission cells are presented. Based on those calculations a p...
"Modelling of Electromagnetic Wave Impact to Three-layered Spherical Cell" The goal of this work is ...
The success application of electromagnetic based medical equipment is determined by mechanism and pr...
The exposure of biological cells to an incident electric field (EF) affects cellular behaviour. Howe...
Three-dimensional electromagnetic calculations for loaded transverse electromagnetic (TEM) transmiss...
Three-dimensional electromagnetic calculations for loaded transverse electromagnetic (TEM) transmiss...
International audienceWe propose to analyze the aperture and ITO layer presence of a modified transv...
The main concern of the work is researching the influence of electromagnetic field on cellular struc...
An in vivo exposure system, based on a TEM cell designed to operate at 900 MHz, has been numerically...
International audienceIn this paper, a Gigaherz Transverse Electromagnetic (GTEM) cell is designed f...
International audienceThis paper investigates the impact of propagation modes on radiated immunity c...
Abstract—Transverse electromagnetic (TEM) cells can be used for exposing biological culture specimen...
The entire dissertation/thesis text is included in the research.pdf file; the official abstract appe...
This paper shows the importance of using realistic cell shapes with the proper geometry and orientat...
This paper shows the importance of using realistic cell shapes with the proper geometry and orientat...
Includes bibliographical references (page 31)The design, construction, and evaluation of a transvers...
"Modelling of Electromagnetic Wave Impact to Three-layered Spherical Cell" The goal of this work is ...
The success application of electromagnetic based medical equipment is determined by mechanism and pr...
The exposure of biological cells to an incident electric field (EF) affects cellular behaviour. Howe...
Three-dimensional electromagnetic calculations for loaded transverse electromagnetic (TEM) transmiss...
Three-dimensional electromagnetic calculations for loaded transverse electromagnetic (TEM) transmiss...
International audienceWe propose to analyze the aperture and ITO layer presence of a modified transv...
The main concern of the work is researching the influence of electromagnetic field on cellular struc...
An in vivo exposure system, based on a TEM cell designed to operate at 900 MHz, has been numerically...
International audienceIn this paper, a Gigaherz Transverse Electromagnetic (GTEM) cell is designed f...
International audienceThis paper investigates the impact of propagation modes on radiated immunity c...
Abstract—Transverse electromagnetic (TEM) cells can be used for exposing biological culture specimen...
The entire dissertation/thesis text is included in the research.pdf file; the official abstract appe...
This paper shows the importance of using realistic cell shapes with the proper geometry and orientat...
This paper shows the importance of using realistic cell shapes with the proper geometry and orientat...
Includes bibliographical references (page 31)The design, construction, and evaluation of a transvers...
"Modelling of Electromagnetic Wave Impact to Three-layered Spherical Cell" The goal of this work is ...
The success application of electromagnetic based medical equipment is determined by mechanism and pr...
The exposure of biological cells to an incident electric field (EF) affects cellular behaviour. Howe...