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A Nanograting Based Flexible and Stretchable Waveguide for Tactile Sensing

Abstract Based on the related characteristics of optical waveguide and flexible optical materials, a flexible and stretchable optical waveguide structure oriented to tactile perception is proposed. The sensing principle of optical waveguide is based on mechanical deformation caused by output light loss. It overcomes the shortcomings of traditional optical waveguide devices, which are unable to conform to irregular surface. The flexible and stretchable optical waveguide is fabricated with nanoreplica molding method, and it has been applied to the measurement of pressure and strain in the field of tactile sensing. The flexible and stretchable optical waveguide had a strain detection range of 0 to 12.5%, and the external force detection range is 0 to 23 x 10-3 N.

Springer Science and Business Media LLC

Wang Peng Qingxi Liao Han Song

2020

Title: A Nanograting Based Flexible and Stretchable Waveguide for Tactile Sensing

Description:

Abstract Based on the related characteristics of optical waveguide and flexible optical materials, a flexible and stretchable optical waveguide structure oriented to tactile perception is proposed.

The sensing principle of optical waveguide is based on mechanical deformation caused by output light loss.

It overcomes the shortcomings of traditional optical waveguide devices, which are unable to conform to irregular surface.

The flexible and stretchable optical waveguide is fabricated with nanoreplica molding method, and it has been applied to the measurement of pressure and strain in the field of tactile sensing.

The flexible and stretchable optical waveguide had a strain detection range of 0 to 12.

5%, and the external force detection range is 0 to 23 x 10-3 N.

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A Nanograting Based Flexible and Stretchable Waveguide for Tactile Sensing

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