Add to ORKGFor the first time, we present measurement results of a small amplitude hologram operating at 650 GHz. The hologram transforms an incident spherical wave to a plane wave which can be used in a compact antenna test range (CATR). Preliminary measurement results are encouraging: they agree fairly well with simulations.
Compact ranges based on amplitude and phase holograms have been developed and shown to be applicable...
Computer-generated holograms (diffractive elements) can be used for shaping submillimeter-wave beams...
A hologram-based compact antenna test range (CATR) is being developed to overcome challenges met in ...
We have constructed a demonstrative compact antenna test range (CATR) and tested its performance at ...
A hologram-based compact antenna test range (CATR) is designed, constructed, and used to test a 1.5-...
This paper studies the feasibility of a hologram-based compact antenna test range (CATR) for submill...
The quiet-zone field test results of a submillimetre-wave compact antenna test range (CATR) based on...
MilliLab/Radio Laboratory at the Helsinki University of Technology (TKK) is developing a hologram-ba...
Computer-generated holograms can be used as collimating elements in compact antenna test ranges (CAT...
Computer-generated holograms (diffractive elements) can be used for shaping millimeter-wave beams, e...
Compact antenna test range developed at TKK Helsinki University of Technology utilizes a computer-ge...
Abstract- A hologram type of compact antenna test range (CATR) is a promising method for testing lar...
The hologram based compact antenna test range is a viable option for testing millimetre and sub-mill...
A compact antenna test range (CATR) based on a radio frequency hologram is a potential method for te...
The application of conventional reflector-type compact antenna test ranges (CATRs) becomes increasin...
Compact ranges based on amplitude and phase holograms have been developed and shown to be applicable...
Computer-generated holograms (diffractive elements) can be used for shaping submillimeter-wave beams...
A hologram-based compact antenna test range (CATR) is being developed to overcome challenges met in ...
We have constructed a demonstrative compact antenna test range (CATR) and tested its performance at ...
A hologram-based compact antenna test range (CATR) is designed, constructed, and used to test a 1.5-...
This paper studies the feasibility of a hologram-based compact antenna test range (CATR) for submill...
The quiet-zone field test results of a submillimetre-wave compact antenna test range (CATR) based on...
MilliLab/Radio Laboratory at the Helsinki University of Technology (TKK) is developing a hologram-ba...
Computer-generated holograms can be used as collimating elements in compact antenna test ranges (CAT...
Computer-generated holograms (diffractive elements) can be used for shaping millimeter-wave beams, e...
Compact antenna test range developed at TKK Helsinki University of Technology utilizes a computer-ge...
Abstract- A hologram type of compact antenna test range (CATR) is a promising method for testing lar...
The hologram based compact antenna test range is a viable option for testing millimetre and sub-mill...
A compact antenna test range (CATR) based on a radio frequency hologram is a potential method for te...
The application of conventional reflector-type compact antenna test ranges (CATRs) becomes increasin...
Compact ranges based on amplitude and phase holograms have been developed and shown to be applicable...
Computer-generated holograms (diffractive elements) can be used for shaping submillimeter-wave beams...
A hologram-based compact antenna test range (CATR) is being developed to overcome challenges met in ...