![Per-Simon KILDAL | PhD & doctor technicae | Chalmers University of Technology, Göteborg | Department of Signals and Systems | Research profile Per-Simon KILDAL | PhD & doctor technicae | Chalmers University of Technology, Göteborg | Department of Signals and Systems | Research profile](https://i1.rgstatic.net/ii/profile.image/272482569551903-1441976315837_Q512/Per-Simon-Kildal.jpg)
Per-Simon KILDAL | PhD & doctor technicae | Chalmers University of Technology, Göteborg | Department of Signals and Systems | Research profile
![Sadia FARJANA | Project Assistant | MSc in Microtechnology | Chalmers University of Technology, Göteborg | Department of Microtechnology and Nanoscience | Research profile Sadia FARJANA | Project Assistant | MSc in Microtechnology | Chalmers University of Technology, Göteborg | Department of Microtechnology and Nanoscience | Research profile](https://i1.rgstatic.net/ii/profile.image/277994452078592-1443290450985_Q512/Sadia-Farjana.jpg)
Sadia FARJANA | Project Assistant | MSc in Microtechnology | Chalmers University of Technology, Göteborg | Department of Microtechnology and Nanoscience | Research profile
![Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs10762-021-00812-8/MediaObjects/10762_2021_812_Fig10_HTML.png)
Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink
![Sofia RAHIMINEJAD | Posdoc | Doctor of Philosophy | California Institute of Technology, CA | CIT | Jet Propulsion Laboratory | Research profile Sofia RAHIMINEJAD | Posdoc | Doctor of Philosophy | California Institute of Technology, CA | CIT | Jet Propulsion Laboratory | Research profile](https://i1.rgstatic.net/ii/profile.image/1182918248534018-1659041096247_Q128/Yogeshwar-Mishra-2.jpg)
Sofia RAHIMINEJAD | Posdoc | Doctor of Philosophy | California Institute of Technology, CA | CIT | Jet Propulsion Laboratory | Research profile
![Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs10762-021-00812-8/MediaObjects/10762_2021_812_Fig1_HTML.jpg)
Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink
![Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs10762-021-00812-8/MediaObjects/10762_2021_812_Fig4_HTML.png)
Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink
![Sofia RAHIMINEJAD | Posdoc | Doctor of Philosophy | California Institute of Technology, CA | CIT | Jet Propulsion Laboratory | Research profile Sofia RAHIMINEJAD | Posdoc | Doctor of Philosophy | California Institute of Technology, CA | CIT | Jet Propulsion Laboratory | Research profile](https://i1.rgstatic.net/ii/profile.image/273522232655887-1442224191054_Q512/Sofia-Rahiminejad.jpg)
Sofia RAHIMINEJAD | Posdoc | Doctor of Philosophy | California Institute of Technology, CA | CIT | Jet Propulsion Laboratory | Research profile
![Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs10762-021-00812-8/MediaObjects/10762_2021_812_Fig6_HTML.png)
Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink
![Sofia RAHIMINEJAD | Posdoc | Doctor of Philosophy | California Institute of Technology, CA | CIT | Jet Propulsion Laboratory | Research profile Sofia RAHIMINEJAD | Posdoc | Doctor of Philosophy | California Institute of Technology, CA | CIT | Jet Propulsion Laboratory | Research profile](https://www.researchgate.net/publication/272380456/figure/fig1/AS:613898013134853@1523376100311/Schematic-view-of-the-principle-of-a-ridge-gap-waveguide-The-ridge-and-the-lid-are-PEC_Q320.jpg)
Sofia RAHIMINEJAD | Posdoc | Doctor of Philosophy | California Institute of Technology, CA | CIT | Jet Propulsion Laboratory | Research profile
![Micromachines | Free Full-Text | Dry Film Photoresist-Based Microfabrication: A New Method to Fabricate Millimeter-Wave Waveguide Components Micromachines | Free Full-Text | Dry Film Photoresist-Based Microfabrication: A New Method to Fabricate Millimeter-Wave Waveguide Components](https://www.mdpi.com/micromachines/micromachines-12-00260/article_deploy/html/images/micromachines-12-00260-g001-550.jpg)
Micromachines | Free Full-Text | Dry Film Photoresist-Based Microfabrication: A New Method to Fabricate Millimeter-Wave Waveguide Components
![PDF) Millimeter-wave spatial splitting and combining for use in gap-waveguide-integrated grid amplifiers and antenna arrays PDF) Millimeter-wave spatial splitting and combining for use in gap-waveguide-integrated grid amplifiers and antenna arrays](https://i1.rgstatic.net/publication/301679387_Millimeter-wave_spatial_splitting_and_combining_for_use_in_gap-waveguide-integrated_grid_amplifiers_and_antenna_arrays/links/5c056749299bf169ae303535/largepreview.png)
PDF) Millimeter-wave spatial splitting and combining for use in gap-waveguide-integrated grid amplifiers and antenna arrays
![Ashraf ZAMAN | Professor (Associate) | PhD | Chalmers University of Technology, Göteborg | Department of Signals and Systems | Research profile Ashraf ZAMAN | Professor (Associate) | PhD | Chalmers University of Technology, Göteborg | Department of Signals and Systems | Research profile](https://i1.rgstatic.net/ii/profile.image/272472897486877-1441974009633_Q512/Ashraf-Zaman.jpg)
Ashraf ZAMAN | Professor (Associate) | PhD | Chalmers University of Technology, Göteborg | Department of Signals and Systems | Research profile
![Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs10762-021-00812-8/MediaObjects/10762_2021_812_Fig5_HTML.png)
Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink
![Peter ENOKSSON | Professor (Full) | Professor | Chalmers University of Technology, Göteborg | Department of Microtechnology and Nanoscience | Research profile Peter ENOKSSON | Professor (Full) | Professor | Chalmers University of Technology, Göteborg | Department of Microtechnology and Nanoscience | Research profile](https://i1.rgstatic.net/ii/profile.image/277050490408965-1443065392291_Q512/Peter-Enoksson.jpg)
Peter ENOKSSON | Professor (Full) | Professor | Chalmers University of Technology, Göteborg | Department of Microtechnology and Nanoscience | Research profile
![PDF) Realizing a 140-GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining PDF) Realizing a 140-GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining](https://i1.rgstatic.net/publication/354581408_Realizing_a_140-GHz_Gap_Waveguide-Based_Array_Antenna_by_Low-Cost_Injection_Molding_and_Micromachining/links/6140e009dabce51cf451eec2/largepreview.png)
PDF) Realizing a 140-GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining
![Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs10762-021-00812-8/MediaObjects/10762_2021_812_Fig16_HTML.png)
Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink
![Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs10762-021-00812-8/MediaObjects/10762_2021_812_Fig11_HTML.png)
Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink
![Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink Realizing a 140 GHz Gap Waveguide–Based Array Antenna by Low-Cost Injection Molding and Micromachining | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs10762-021-00812-8/MediaObjects/10762_2021_812_Fig7_HTML.png)