Metasurface Doppler Cloak for Broadband Radar Stealth

• Published in: Advanced Physics Research
• Main Authors: Lopez, Tanguy, Lepetit, Thomas, Ratni, Badreddine, Burokur, Shah Nawaz
• Format: Journal Article
• Language: English
• Published: 28.07.2025
• ISSN: 2751-1200; 2751-1200
• DOI: 10.1002/apxr.202500064

Concealing an aircraft is a multi‐faceted endeavor, notably involving radio and infrared frequencies. In a radar stealth context, it often translates to the reduction of the radar cross‐section (RCS). However, other routes that take advantage of radar signal processing exist. For instance, a solution has recently been developed, which consists in compensating the motion‐induced Doppler shift with a time‐modulated metasurface since Doppler radars filter out static targets to avoid being swamped by radar clutter (buildings, trees, etc.). Such a coating, referred to as a Doppler cloak, is able to compensate any frequency shift. However, frequency‐modulated radar signals require a broadening of the frequency conversion bandwidth of existing Doppler cloaks, which are all designed for harmonic signals. In this work, the focus is thus placed on a broadband Doppler cloak able to suppress the Doppler information over a wide frequency range. To achieve this, the reflection coefficient of a varactor diode‐loaded metasurface is linearized in time to obtain a linear phase ramp necessary to shift the frequency of impinging waves. Numerical and experimental validations are performed using frequency‐modulated continuous wave (FMCW) broadband radar signals over the VHF‐UHF range.