P
Per-Simon Kildal
Researcher at Chalmers University of Technology
Publications - 505
Citations - 14728
Per-Simon Kildal is an academic researcher from Chalmers University of Technology. The author has contributed to research in topics: Antenna (radio) & Electromagnetic reverberation chamber. The author has an hindex of 60, co-authored 504 publications receiving 13470 citations. Previous affiliations of Per-Simon Kildal include SP Technical Research Institute of Sweden & Norwegian Institute of Technology.
Papers
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Journal ArticleDOI
Single- and dual-band multimode hard horn antennas with partly corrugated walls
TL;DR: In this article, a partly corrugated hard horn (PCH) was proposed to design a dual-band horn with low cross-polarization and high gain for multifunction use at Ka-band with transmit and receive frequencies in the same antenna.
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Millimeter Wave E-Plane Transition From Waveguide to Microstrip Line With Large Substrate Size Related to MMIC Integration
TL;DR: In this paper, a waveguide-to-microstrip transition can be assimilated on a mm-wave MMIC of an arbitrary size and thus avoid the use of bond wires at the high frequency ports of the MMIC circuit.
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Moment method analysis of a microwave tunnel oven
TL;DR: In this paper, an approach based on the moment method (MM) is used to calculate the electromagnetic field in a tunnel oven, which is shown that the results from the MM calculations agree well with the FDTD method and that the computation time, compared to FDTD, is significantly reduced.
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Diversity characterization of optimized two-antenna systems for UMTS handsets
Aliou Diallo,P. Le Thuc,Cyril Luxey,Robert Staraj,Georges Kossiavas,Magnus Franzen,Per-Simon Kildal +6 more
TL;DR: The key diversity parameters of all these systems are discussed, that is, the total efficiency of the antenna, the envelope correlation coefficient, the diversity gains, the mean effective gain (MEG), and the MEG ratio.
Proceedings ArticleDOI
Half-height pins - a new pin form in gap waveguide for easy manufacturing
TL;DR: In this article, a half-height pin form was proposed for gap waveguide, which has similar stop-band performance as the previous quarter-wavelength long pin form, but the shorter length of the pins makes the fabrication of the pin surface much easier, such as by die-forming, molding or MEMS technology.