Add to ORKGWe present measurements of the spatial response of infrared dipole and bow–tie lithographic antennas. Focused 10.6–μm radiation was scanned in two dimensions across the receiving area of each antenna. Deconvolution of the beam profile allowed the spatial response to be measured. The in–plane width of the antenna’s spatial response extends approximately one dielectric wavelength beyond the metallic structure. Determination of an antenna’s spatial response is important for several reasons. The power collected by the antenna can be calculated, if the collection area and the input irradiance (watts per square centimeter) are known. The actual power collected by the antenna is required for computation of responsivity and noise–equivalent power. ...
A dual-dipole structure is demonstrated at 10.6 mu m, which facilitates electronic cancellation of t...
A dual-dipole structure is demonstrated at 10.6 μm, which facilitates electronic cancellation of the...
The far-field angular response pattern for dipole antenna-coupled infrared detectors is investigated...
We present measurements of the spatial response of infrared dipole and bow–tie lithographic antennas...
We present measurements of the spatial response of infrared dipole and bow-tie lithographic antennas...
We present measurements on the spatial-response profiles of nanometer-scale thin-film Ni-NiO-Ni diod...
The spatial impulse response of antenna-coupled infrared detectors with dimensions comparable with t...
The spatial impulse response of antenna-coupled infrared detectors with dimensions comparable with t...
A few years ago, some of the authors of the paper demonstrated the resonance of optical antennas in ...
Infrared antennas are a novel type of detectors that couples electromagnetic radiation into metallic...
The measurement of a two-dimensional spatial responsivity map of infrared antennas can be accomplish...
The measurement of a two-dimensional spatial responsivity map of infrared antennas can be accomplish...
The resonant lengths of infrared dipole antennas at 10.6 and 3.39 mu m are experimentally investigat...
The resonant lengths of infrared dipole antennas at 10.6 and 3.39 μm are experimentally investigated...
The miniaturization of light detectors in the visible and infrared has produced devices with microme...
A dual-dipole structure is demonstrated at 10.6 mu m, which facilitates electronic cancellation of t...
A dual-dipole structure is demonstrated at 10.6 μm, which facilitates electronic cancellation of the...
The far-field angular response pattern for dipole antenna-coupled infrared detectors is investigated...
We present measurements of the spatial response of infrared dipole and bow–tie lithographic antennas...
We present measurements of the spatial response of infrared dipole and bow-tie lithographic antennas...
We present measurements on the spatial-response profiles of nanometer-scale thin-film Ni-NiO-Ni diod...
The spatial impulse response of antenna-coupled infrared detectors with dimensions comparable with t...
The spatial impulse response of antenna-coupled infrared detectors with dimensions comparable with t...
A few years ago, some of the authors of the paper demonstrated the resonance of optical antennas in ...
Infrared antennas are a novel type of detectors that couples electromagnetic radiation into metallic...
The measurement of a two-dimensional spatial responsivity map of infrared antennas can be accomplish...
The measurement of a two-dimensional spatial responsivity map of infrared antennas can be accomplish...
The resonant lengths of infrared dipole antennas at 10.6 and 3.39 mu m are experimentally investigat...
The resonant lengths of infrared dipole antennas at 10.6 and 3.39 μm are experimentally investigated...
The miniaturization of light detectors in the visible and infrared has produced devices with microme...
A dual-dipole structure is demonstrated at 10.6 mu m, which facilitates electronic cancellation of t...
A dual-dipole structure is demonstrated at 10.6 μm, which facilitates electronic cancellation of the...
The far-field angular response pattern for dipole antenna-coupled infrared detectors is investigated...