Add to ORKGThis paper summarises test structures for continuous determination of electrical properties of material. On the basis of onchip technology a silicon wafers with a resistivities (p) of 2000Ohm*cm are characterised. A method for determination of material properties in a frequency range of 4 GHz to at least 60 GHz is presented. Fundamental importance is attached to monitoring of the relative permittivity e, and the dissipation factor tan. High frequency measurements arc compared to simulation results. Finally, the extracted electrical material parameters of silicon are presented and discussed
The emergence and deployment of new telecommunication standards (5G then 6G) requires low-cost, high...
The paper presents the study results of electrical properties of polycrystalline silicon films in si...
The objective of this work is to conduct a comprehensive wideband electrical evaluation of materials...
This paper summarizes test structures for continuous determination of electrical properties of mater...
This paper describes the use of line resonators as well as micro strip lines for continuous monitori...
In this work, we present the high frequency extraction of electrical material properties of silicon ...
The complex permittivity and resistivity of float-zone high-resistivity silicon were measured at mic...
Wafer bonding has been used to manufacture a silicon material intended as substrate for high frequen...
In this paper, analytical, numerical-, and measurement-based methods for extracting the resistance, ...
In this work we have used contact and contactless techniques to measure the electrical resistivity o...
It is shown that at microwave–millimeterwave frequencies and for DC resistivities below ρ+=(2πfτε0εL...
The progress of electrical engineering and electronics has demanded the application of new materials...
The complete methodology of designing T- and modified ring resonators in the UHF band are presented ...
This review paper assesses the main approaches in the electrical characterization of advanced MOSFET...
International audienceA broadband technique for determining electrical properties of dielectric mate...
The emergence and deployment of new telecommunication standards (5G then 6G) requires low-cost, high...
The paper presents the study results of electrical properties of polycrystalline silicon films in si...
The objective of this work is to conduct a comprehensive wideband electrical evaluation of materials...
This paper summarizes test structures for continuous determination of electrical properties of mater...
This paper describes the use of line resonators as well as micro strip lines for continuous monitori...
In this work, we present the high frequency extraction of electrical material properties of silicon ...
The complex permittivity and resistivity of float-zone high-resistivity silicon were measured at mic...
Wafer bonding has been used to manufacture a silicon material intended as substrate for high frequen...
In this paper, analytical, numerical-, and measurement-based methods for extracting the resistance, ...
In this work we have used contact and contactless techniques to measure the electrical resistivity o...
It is shown that at microwave–millimeterwave frequencies and for DC resistivities below ρ+=(2πfτε0εL...
The progress of electrical engineering and electronics has demanded the application of new materials...
The complete methodology of designing T- and modified ring resonators in the UHF band are presented ...
This review paper assesses the main approaches in the electrical characterization of advanced MOSFET...
International audienceA broadband technique for determining electrical properties of dielectric mate...
The emergence and deployment of new telecommunication standards (5G then 6G) requires low-cost, high...
The paper presents the study results of electrical properties of polycrystalline silicon films in si...
The objective of this work is to conduct a comprehensive wideband electrical evaluation of materials...