What question did this study set out to answer?

This research aims to develop a stretchable lens using a metasurface for manipulating non-diffracting beams.

February 8, 2026Open Access

Stretchable metasurface design for non-diffracting beam manipulation

Key Points

This research aims to develop a stretchable lens using a metasurface for manipulating non-diffracting beams.
Proposed a stretchable lens design based on a serpentine metasurface.
Used polydimethylsiloxane as the substrate for mechanical properties.
Developed arrangements of serpentine meta cells for beam manipulation.
Conducted experiments to measure angle adjustments of non-diffracting beams.
Achieved a continuous adjustment of non-diffracting angles from 3.8° to 13.6° by stretching 0 to 6 mm.
Demonstrated effective conversion of plane waves into oblique non-diffracting surface waves.
Showed potential applications in covert communication, medical imaging, and microfabrication.

Abstract

A stretchable non-diffraction lens based on the serpentine stretchable metasurface is proposed for non-diffraction beam manipulation. To achieve good mechanical property, the serpentine structure printed on the polydimethylsiloxane substrate is designed as the meta cells. Through the arrangement of serpentine meta cells, the proposed lens effectively converts the plane waves into the oblique non-diffraction surface waves. By stretching the flexible metasurface, the inclined angle of non-diffraction beams can be adjusted. Experimental results show that the angle of non-diffraction at 3.8°–13.6° can be continuously adjusted for the metasurface stretched from 0 to 6 mm. The proposed non-diffractive meta-lens with beam manipulation is suitable for multi-target covert communication, medical imaging, and microfabrication.

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Stretchable metasurface design for non-diffracting beam manipulation

Key Points

Abstract

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