Add to ORKGThis paper presents a transmission-line structure suitable \ud for micromachining technology. The structure is an air-filled square coaxial cable, which is very low loss and has been designed in order to utilise current manufacturing processes. This transmission line demonstrates that such a structure can be designed to cover very wide bandwidth. \ud As the cable is air filled, the centre conductor needs to be supported and this is accomplished by attaching quarter-wavelength stubs to the ground. The design method of such a cable is presented in detail and the results of an X-band component are presented
In recent years, industrial applications have been based on the use of intrinsic material properties...
The properties of a modified coaxial transmission line by periodic inclusions will be discussed. The...
Using an asymptotic formalism we developed in an earlier paper, we compare the dispersion properties...
A suspended coaxial transmission line with an air propagation medium is presented. The transmission ...
A bandpass filter resonating at ∼1.4 Μm and based on a dual-frequency-selective surface design is fa...
Microwave circuits in the millimetre wave region demand low loss, and low dispersion transmission li...
© 2010 IEEE.This is a a joint IEEE/OSA publication. The definitive version of this paper is availabl...
Ribbon waveguides made of alumina or of semiconductors (Si, InP, or GaAs) have been proposed as low-...
In particle accelerators coaxial cables are commonly used to transmit wideband beam signals covering...
A mesoscale low-loss LIGA-micromachined conductor-backed coplanar waveguide is presented. The 517 {m...
A new concept of metal spiral coaxial cable is introduced. The solution to Maxwell's equations for t...
Optical fibre transmission lines have many advantages over coaxial cables. The most widely used fabr...
We present a broadband single-mode bi-conical microfiber coupler (MFC) with a specifically designed ...
In this paper, details are given on a novel measurement device for radio propagation-channel measure...
The development of coaxial and planar RF measurement systems demands a completely different approach...
In recent years, industrial applications have been based on the use of intrinsic material properties...
The properties of a modified coaxial transmission line by periodic inclusions will be discussed. The...
Using an asymptotic formalism we developed in an earlier paper, we compare the dispersion properties...
A suspended coaxial transmission line with an air propagation medium is presented. The transmission ...
A bandpass filter resonating at ∼1.4 Μm and based on a dual-frequency-selective surface design is fa...
Microwave circuits in the millimetre wave region demand low loss, and low dispersion transmission li...
© 2010 IEEE.This is a a joint IEEE/OSA publication. The definitive version of this paper is availabl...
Ribbon waveguides made of alumina or of semiconductors (Si, InP, or GaAs) have been proposed as low-...
In particle accelerators coaxial cables are commonly used to transmit wideband beam signals covering...
A mesoscale low-loss LIGA-micromachined conductor-backed coplanar waveguide is presented. The 517 {m...
A new concept of metal spiral coaxial cable is introduced. The solution to Maxwell's equations for t...
Optical fibre transmission lines have many advantages over coaxial cables. The most widely used fabr...
We present a broadband single-mode bi-conical microfiber coupler (MFC) with a specifically designed ...
In this paper, details are given on a novel measurement device for radio propagation-channel measure...
The development of coaxial and planar RF measurement systems demands a completely different approach...
In recent years, industrial applications have been based on the use of intrinsic material properties...
The properties of a modified coaxial transmission line by periodic inclusions will be discussed. The...
Using an asymptotic formalism we developed in an earlier paper, we compare the dispersion properties...