Cody Scarborough, PhD
Research Highlights
News
Courses
About Dr. Scarborough
Our Group
Home
More
Prof. Scarborough Awarded AFOSR YIP
FY 2025 | Award Recipient
Professor Scarborough was recently awarded the prestigious AFOSR Young Investigator Program (YIP) Award for his proposal entitled “Dispersive Nonlinear Transmission Line Synthesis for Airborne Radar Pulse Shaping.”
Optical Materials Express Cover Feature
2024 | Design By: Joel Johnson
Graduate student Joel Johnson’s publication on nonlinear electrical networks and soliton computation was selected for the cover of Optical Materials Express.
Best Paper: Metamaterials 2021
2021 | Award Recipient
"Scarborough was recognized for his work developing a more efficient method to convert signals to higher frequencies, benefiting applications that require very low power and low noise."
Best Paper: EuCAP 2021
"Scarborough was recognized by the European Conference on Antennas and Propagation for developing a superior method to model and simulate traveling-wave modulation along two dimensions in metamaterials."
"Scarborough was recognized for his work advancing the understanding and study of electromagnetic waves."
Exceptional Student Contributions: Metamaterials 2020
2020 | Award Recipient
Dr. Scarborough Awarded Outstanding Junior Faculty Member
Spring 2025 | Award Recipient
The Department of Electrical, Computer and Energy Engineering at the University of Colorado Boulder recognized Prof. Scarborough for excellence in research, teaching, and service.
New Near Field Scanner
Summer 2025 | Built By: Jacob Stewart
Scarborough lab undergraduate researcher Jacob Stewart designed and built an affordable near-field scanning system using 3D printing, aluminum extrusion, and custom control software—making advanced antenna diagnostics more accessible to small labs and researchers.
Short Course: EuCAP 2024
March 2024 | Talk By: Cody Scarborough & Anthony Grbic
Prof. Scarborough will be teaching a short course on 03/22/24 entitled “Modeling and Design of Space-Time Modulated Electromagnetic Structures” at the 18th European Conference on Antennas and Propagation. The course will be taught in conjunction with Prof. Anthony Grbic at the University of Michigan. In this short course, participants will learn modeling techniques and design considerations for STM devices including modulated metasurfaces, nonlinear transmission lines, and space-time periodic electrical networks. The course will provide a background on the fundamental capabilities and behavior of STM.
