Tahir, G., Hassan, A., Ali, S., Khan, A., Wang, B., Khelif, A. und Bermak, A. (2025) „Wide-Bandgap All-Metal Mushroom Unit Cells with Air Gap Shifting and Stress Mitigation for 30 GHz Gap Waveguide Applications“, in. doi:10.1109/ICECS66544.2025.11270710.
Chicago Manual of Style 17th edition (full note)Tahir, Ghiayas, Arshad Hassan, Shawkat Ali, Arshad Khan, Bo Wang, Abdelkrim Khelif, und Amine Bermak. „Wide-Bandgap All-Metal Mushroom Unit Cells With Air Gap Shifting and Stress Mitigation for 30 GHz Gap Waveguide Applications“. In . https://doi.org/10.1109/ICECS66544.2025.11270710.
American Psychological Association 7th editionTahir, G., Hassan, A., Ali, S., Khan, A., Wang, B., Khelif, A., & Bermak, A. (2025, November 17). Wide-Bandgap All-Metal Mushroom Unit Cells with Air Gap Shifting and Stress Mitigation for 30 GHz Gap Waveguide Applications. https://doi.org/10.1109/ICECS66544.2025.11270710
Modern Language Association 9th editionTahir, G., A. Hassan, S. Ali, A. Khan, B. Wang, A. Khelif, und A. Bermak. Wide-Bandgap All-Metal Mushroom Unit Cells With Air Gap Shifting and Stress Mitigation for 30 GHz Gap Waveguide Applications. 2025, https://doi.org/10.1109/ICECS66544.2025.11270710.
ISO-690 (author-date, Deutsch)TAHIR, Ghiayas, Arshad HASSAN, Shawkat ALI, Arshad KHAN, Bo WANG, Abdelkrim KHELIF und Amine BERMAK, 2025. Wide-Bandgap All-Metal Mushroom Unit Cells with Air Gap Shifting and Stress Mitigation for 30 GHz Gap Waveguide Applications. In: . 17 November 2025