Micromachines | Free Full-Text | Dry Film Photoresist-Based Microfabrication: A New Method to Fabricate Millimeter-Wave Waveguide Components | HTML
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Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink
To the right; a pin flange facing a regular flange with an air gap... | Download Scientific Diagram
International Journal of Microwave and Wireless Technologies: Volume 6 - MEMSWAVE Symposium 2013 | Cambridge Core
Sofia Rahiminejad - Technologist - NASA Jet Propulsion Laboratory | LinkedIn
Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink
Thesis - Sofia Rahiminejad - pp1-24 | PDF | Metamaterial | Materials Science
PDF) Millimeter-wave spatial splitting and combining for use in gap-waveguide-integrated grid amplifiers and antenna arrays
Sofia Rahiminejad - Technologist - NASA Jet Propulsion Laboratory | LinkedIn
Sofia Rahiminejad - Technologist - NASA Jet Propulsion Laboratory | LinkedIn
PDF) Realizing a 140-GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining
Sofia Rahiminejad - Technologist - NASA Jet Propulsion Laboratory | LinkedIn
PDF) Millimeter-wave spatial splitting and combining for use in gap-waveguide-integrated grid amplifiers and antenna arrays
Sadia FARJANA | Project Assistant | MSc in Microtechnology | Chalmers University of Technology, Göteborg | Department of Microtechnology and Nanoscience