TU-SS.3A.9
4-Bit Near-Field Focusing at 8.5 GHz Using a Four-Layer All-Metal Metasurface Lens via a Layer-Combination Approach
Azin Hojjati, Sakib Reza, Ifana Mahbub, University of Texas at Dallas, United States
Session:
Technological Innovation in Next-generation High-power Microwave Antennas I Oral
Track:
Special Sessions
Location:
Room 250C
Session Time:
Tue, 14 Jul, 08:00 - 11:40
Presentation Time:
Tue, 14 Jul, 11:00 - 11:20
Session Co-Chairs:
Muhammed Zuboraj, Air Force Research Laboratory and Hannah Trock, Air Force Research Laboratory and Christos Christodoulou, University of New Mexico
Presentation
Discussion
Session TU-SS.3A
TU-SS.3A.1: A High-Power S-Band Two-Column Slotted Waveguide Array with Integrated E-Plane Power Divider and Discrete Back-Short Tuning
Zubair Akhter, Joey Trillo, Evgeny Gurnevich, Abdullah Al-Ali, Ernesto Neira, Fernando Albarracin, Felix Vega, Technology Innovation Institute (TII), Abu Dhabi, United Arab Emirates, United Arab Emirates
TU-SS.3A.2: On the Radiation of Pulses by Long Slot Arrays
Woohyung Jeon, Mauro Ettorre, Michigan State University, United States
TU-SS.3A.3: Design and Fabrication of Alumina Gradient-Refractive INdex Lenses for High-Power Applications
Benjamin Davis, Joshua Mathis, University of Notre Dame, United States; Braxton Bragg, David Robie, Diana Gerrish, Lockheed Martin Corporation, United States; Jonathan Chisum, University of Notre Dame, United States
TU-SS.3A.4: Metalens design and validation for HPM antenna apertures
William Milestone, Andrew Foley, Shawn Wimer, Mark Lucente, Nanohmics, Inc., United States
TU-SS.3A.5: Advances in High Power Microwave Origami Inspired Reflector Antenna
Hannah Trock, Air Force Research Laboratory, United States; Ari Graupe, University of Wisconsin at Madison, United States; Hunter Pruett, D. Matthew Boston, AcroVironment, Inc., United States; Ronald Jenkins, Core4ce, United States; Matthew Grasinger, Philip Buskohl, Anna Janicek, Air Force Research Laboratory, United States; Kevin Debord, The University of Texas at Dallas, United States; Muhammed Zuboraj, Air Force Research Laboratory, United States
TU-SS.3A.6: An Ultra-Wideband, Shielded, Quasi-Optical Test Setup for Free-Space Characterization of High-Power Microwave Antennas
Cody Baker, John Booske, Nader Behdad, University of Wisconsin-Madison, United States
TU-SS.3A.7: High-Power Folded Parallel-Plate Antenna for Wideband Applications
Eyad Alzuraiqi, Christos Christodoulou, The University of New Mexico, United States
TU-SS.3A.8: Design of an all Metal Antipodal Vivaldi Antenna for High Power Wireless Application at mmWave Frequency Range
Pallav Kumar Sah, Ifana Mahbub, University of texas at dallas, United States
TU-SS.3A.9: 4-Bit Near-Field Focusing at 8.5 GHz Using a Four-Layer All-Metal Metasurface Lens via a Layer-Combination Approach
Azin Hojjati, Sakib Reza, Ifana Mahbub, University of Texas at Dallas, United States
TU-SS.3A.10: A Thermally Robust 3D All-Metal 4-Element Vivaldi Array with Engineered Mutual Coupling for High-Power Microwave Power Beaming
Abu Hena Murshed, University of Texas at Dallas, United States; Ravi Challa, Product & Applications Fabric8Labs, United States; Ifana Mahbub, University of Texas at Dallas, United States
Resources
No resources available.