Near-field scanning systems are by far the most compact alternatives for antenna pattern measurement. Yet, conventional near-field scanning systems have substantial downsides. These systems involve metallic radiators that act as receivers for picking up the near field of the antenna under test (AUT). Such metallic pick-up antennas cannot get close to the AUT since they would perturb its near fields. They also limit the operational bandwidth of the system, and their accuracy degrades significantly at lower frequency bands. Sophisticated software tools are often used in conjunction with these systems to de-embed and minimize various errors due to their specific architectures and configurations.
<table>
<tr>
<td>
[[Image:NEOWEB10.png|thumb|450px|Modulating the polarization state of an optical beam passing through an electro-optic crystal.]]
</td>
</tr>
<tr>
<td>
[[Image:NEOWEB12.png|thumb|450px|Modulating the polarization state of an optical beam passing through an electro-optic crystal.]]
</td>
</tr>
<tr>
<td>
[[Image:NEOWEB13.png|thumb|450px|Modulating the polarization state of an optical beam passing through an electro-optic crystal.]]
</td>
</tr>
</table>
[[Image:NEOWEB8.png|thumb|450px|Modulating the polarization state of an optical beam passing through an electro-optic crystal.]]
Â
[[Image:NEOWEB10.png|thumb|450px|Modulating the polarization state of an optical beam passing through an electro-optic crystal.]]
Â
[[Image:NEOWEB12.png|thumb|450px|Modulating the polarization state of an optical beam passing through an electro-optic crystal.]]
Â
[[Image:NEOWEB13.png|thumb|450px|Modulating the polarization state of an optical beam passing through an electro-optic crystal.]]
== NeoScan: The Perfect Non-Invasive Solution for Diagnostics of High-Power Antenna Systems ==