Add to ORKGIn this paper, we demonstrate an active 3D millimeter wave (mmW) imaging system used for characterization of dielectric multilayer materials. Reflectometry is used to obtain the evolution of the refractive indices of unknown materials over a frequency range between 75 GHz and 110 GHz, denoted as W-band. Depending on the measured strength of dispersion, precise localization of small defects such as voids or delamination in multilayer structures can be realized by mmW imaging using the same system
A near-field millimeter-wave (mm-wave) imaging system has been designed and built in the 94-GHz rang...
The aim of this project is the development of a measurement system in millimetre wave frequency rang...
This paper presents, for the first time, a multimodal sensor for characterizing relative permittivit...
In this paper, we demonstrate an active 3-D millimeter wave (mmW) imaging system used for characteri...
To determine the mechanical stability of imperfect composite materials it is crucial to classify pro...
This contribution presents a methodology and a measurement setup for spatially resolved material cha...
It is well known that millimetre waves can be used for non-destructive characterization of a wide sp...
In this paper, we demonstrate a novel, compact setup for the characterization of homogeneous plastic...
The aim of this project is the development of a measurement system in millimetre wave frequency rang...
Millimetre-wave (mmW) imaging is an emerging technique for non-destructive testing. Since many poly...
This master thesis investigates material characterization by reflection and transmission of electrom...
The millimeter wave region up to the lower THz region offers a good penetration ability for many die...
The characterization of dielectric materials is of great importance for many applications, being for...
The characterization of dielectric materials is of great importance for many applications, being for...
In this paper, we introduce an experimental method that improves the measurement accuracy of millime...
A near-field millimeter-wave (mm-wave) imaging system has been designed and built in the 94-GHz rang...
The aim of this project is the development of a measurement system in millimetre wave frequency rang...
This paper presents, for the first time, a multimodal sensor for characterizing relative permittivit...
In this paper, we demonstrate an active 3-D millimeter wave (mmW) imaging system used for characteri...
To determine the mechanical stability of imperfect composite materials it is crucial to classify pro...
This contribution presents a methodology and a measurement setup for spatially resolved material cha...
It is well known that millimetre waves can be used for non-destructive characterization of a wide sp...
In this paper, we demonstrate a novel, compact setup for the characterization of homogeneous plastic...
The aim of this project is the development of a measurement system in millimetre wave frequency rang...
Millimetre-wave (mmW) imaging is an emerging technique for non-destructive testing. Since many poly...
This master thesis investigates material characterization by reflection and transmission of electrom...
The millimeter wave region up to the lower THz region offers a good penetration ability for many die...
The characterization of dielectric materials is of great importance for many applications, being for...
The characterization of dielectric materials is of great importance for many applications, being for...
In this paper, we introduce an experimental method that improves the measurement accuracy of millime...
A near-field millimeter-wave (mm-wave) imaging system has been designed and built in the 94-GHz rang...
The aim of this project is the development of a measurement system in millimetre wave frequency rang...
This paper presents, for the first time, a multimodal sensor for characterizing relative permittivit...