![8.000 - 12.400 GHz - X Band - 3-ft. (0.9m) Standard Parabolic - Dual Circular Pol - Type N Female - mWAVE Industries LLC 8.000 - 12.400 GHz - X Band - 3-ft. (0.9m) Standard Parabolic - Dual Circular Pol - Type N Female - mWAVE Industries LLC](https://www.mwavellc.com/wp-content/uploads/2020/06/RPCD3-102-N_BW.jpg.jpg)
8.000 - 12.400 GHz - X Band - 3-ft. (0.9m) Standard Parabolic - Dual Circular Pol - Type N Female - mWAVE Industries LLC
![X-band hi-gain antenna array for beam-scanning system – Division of Subterahertz Technology – Institute of Radioelectronics and Multimedia Technology – Warsaw University of Technology X-band hi-gain antenna array for beam-scanning system – Division of Subterahertz Technology – Institute of Radioelectronics and Multimedia Technology – Warsaw University of Technology](https://sub-thz.ire.pw.edu.pl/wp-content/uploads/2015/09/romby-1024x576.jpg)
X-band hi-gain antenna array for beam-scanning system – Division of Subterahertz Technology – Institute of Radioelectronics and Multimedia Technology – Warsaw University of Technology
![rovers - How does Curiosity know how to point and move it's high gain antenna in real time? - Space Exploration Stack Exchange rovers - How does Curiosity know how to point and move it's high gain antenna in real time? - Space Exploration Stack Exchange](https://i.stack.imgur.com/OIhSl.jpg)
rovers - How does Curiosity know how to point and move it's high gain antenna in real time? - Space Exploration Stack Exchange
![rovers - How does Curiosity know how to point and move it's high gain antenna in real time? - Space Exploration Stack Exchange rovers - How does Curiosity know how to point and move it's high gain antenna in real time? - Space Exploration Stack Exchange](https://i.stack.imgur.com/OQRzc.jpg)
rovers - How does Curiosity know how to point and move it's high gain antenna in real time? - Space Exploration Stack Exchange
![A high-gain dual-band shared-aperture array integrating zero-order-resonance patch and higher-order metasurface antenna | Scientific Reports A high-gain dual-band shared-aperture array integrating zero-order-resonance patch and higher-order metasurface antenna | Scientific Reports](https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41598-023-38562-3/MediaObjects/41598_2023_38562_Fig1_HTML.png)
A high-gain dual-band shared-aperture array integrating zero-order-resonance patch and higher-order metasurface antenna | Scientific Reports
![Image of SPACE: GALILEO, 1989. - Technicians Discuss Procedures For Lifting The S-band/X-band High Gain Antenna (foreground) Onto The Galileo Spacecraft, At The Kennedy Space Centers' Spacecraft And Assembly Encapsulation Facility 2. Image of SPACE: GALILEO, 1989. - Technicians Discuss Procedures For Lifting The S-band/X-band High Gain Antenna (foreground) Onto The Galileo Spacecraft, At The Kennedy Space Centers' Spacecraft And Assembly Encapsulation Facility 2.](https://www.granger.com/wmpix/spa/spa/0186280-SPACE-GALILEO-1989-Technicians-discuss-procedures-for-lifting-the-S-bandX-band-high-gain-antenna-foreground-onto-the-Galileo-spacecraft-at-the-Kennedy-Space-Centers-Spacecraft-and-Assembly-Encapsulation.jpg)