# Stacked Time-Varying Metasurfaces

**Authors:** Mostafa Movahediqomi, Sergei Tretyakov, Viktar Asadchy, Xuchen Wang

arXiv: 2508.20506 · 2025-08-29

## TL;DR

This paper presents a novel approach for designing stacked spatiotemporal metasurfaces using independently engineered uniform layers with periodic modulation, enabling advanced wave control with fewer elements and broad practical applications.

## Contribution

It introduces a general theoretical framework for designing and optimizing stacked metasurfaces with independent modulation functions, reducing complexity and enhancing functionality.

## Key findings

- Achieved magnet-free isolation at fundamental frequency.
- Demonstrated a temporal analogue of circulators.
- Implemented a metasurface stack with few modulated elements in a waveguide.

## Abstract

Spatiotemporal metasurfaces offer unique opportunities for wave manipulation, however, their practical realization is often constrained by the requirement for in-plane spatial modulation, which necessitates a large number of time-varying elements. In this work, we introduce an alternative architecture based on a cascade of spatially uniform metasurfaces subjected to periodic temporal modulation. Although all metasurfaces share the same modulation frequency, their individual modulation functions are independently engineered to achieve a desired complex electromagnetic response. We develop a general theoretical framework for the design and optimization of such stacked metasurface systems, composed of dense arrays of cylindrical meta-atoms with time-varying plasma and/or collision frequencies. The effectiveness of the approach is demonstrated through the optimization of metasurface designs that enable magnet-free isolation at the fundamental frequency and a temporal analogue of circulators. Furthermore, we show that a metasurface stack can be implemented using only a few time-modulated elements embedded within a parallel-plate waveguide, opening new avenues for extremely compact, versatile, and scalable spatiotemporal platforms for next-generation photonic and microwave systems.

## Full text

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## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/2508.20506/full.md

## References

35 references — full list in the complete paper: https://tomesphere.com/paper/2508.20506/full.md

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Source: https://tomesphere.com/paper/2508.20506