A two-dimensional horn imaging array has been demonstrated at 242 GHz. In this configuration, a dipole is suspended in a pyramidal horn on a 1-μm silicon-oxynitride membrane. This approach leaves room for low-frequency lines and processing electronics. Pattern measurements agree well with theory, and show no sidelobes and 3-dB beamwidth of 35° and 46° for the E and H planes respectively. Possible application areas include superconducting tunnel-junction receivers for radio astronomy and imaging arrays for plasma diagnostics and radiometry
In this paper we report on the design and validation process for the profiled corrugated horn antenn...
In this paper we report on the design and validation process for the profiled corrugated horn antenn...
Heterodyne terahertz (0.3 - 3THz) imaging systems are currently limited to single or a low number of...
A two-dimensional horn imaging array has been demonstrated at 242 and 93 GHz. In this configuration,...
A two‐dimensional horn imaging array has been demonstrated at 242 and 93 GHz. In this configuration,...
A monolithic two-dimensional horn imaging array has been fabricated for millimeter wavelengths. In t...
The aperture efficiency of monolithic two-dimensional horn imaging arrays has been optimized at 93 G...
In this thesis two different types of antenna arrays are investigated as possible configurations for...
This short paper presents the pattern measurements at 802GHz of a single element in a 256-element in...
In previous work, we have described novel smooth-walled multiple flare-angle horns designed using a ...
We have developed an antenna for high-performance submillimetre-wave imaging arrays. The antenna com...
Context. The use of large-format focal plane imaging arrays employing multiple feed horns is becomin...
In this paper we report on the design and validation process for the profiled corrugated horn antenn...
In this paper, we introduce a novel and compact double-ridged horn (DRH) antenna for ultra-wide band...
Context. The use of large-format focal plane imaging arrays employing multiple feed horns is becomin...
In this paper we report on the design and validation process for the profiled corrugated horn antenn...
In this paper we report on the design and validation process for the profiled corrugated horn antenn...
Heterodyne terahertz (0.3 - 3THz) imaging systems are currently limited to single or a low number of...
A two-dimensional horn imaging array has been demonstrated at 242 and 93 GHz. In this configuration,...
A two‐dimensional horn imaging array has been demonstrated at 242 and 93 GHz. In this configuration,...
A monolithic two-dimensional horn imaging array has been fabricated for millimeter wavelengths. In t...
The aperture efficiency of monolithic two-dimensional horn imaging arrays has been optimized at 93 G...
In this thesis two different types of antenna arrays are investigated as possible configurations for...
This short paper presents the pattern measurements at 802GHz of a single element in a 256-element in...
In previous work, we have described novel smooth-walled multiple flare-angle horns designed using a ...
We have developed an antenna for high-performance submillimetre-wave imaging arrays. The antenna com...
Context. The use of large-format focal plane imaging arrays employing multiple feed horns is becomin...
In this paper we report on the design and validation process for the profiled corrugated horn antenn...
In this paper, we introduce a novel and compact double-ridged horn (DRH) antenna for ultra-wide band...
Context. The use of large-format focal plane imaging arrays employing multiple feed horns is becomin...
In this paper we report on the design and validation process for the profiled corrugated horn antenn...
In this paper we report on the design and validation process for the profiled corrugated horn antenn...
Heterodyne terahertz (0.3 - 3THz) imaging systems are currently limited to single or a low number of...
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