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Pressure-dependent diffraction spectrum response in photopolymer-based holographic sensor

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Abstract

A volume grating-based holographic pressure sensor in acrylamide photopolymer has been studied. The pressure sensing response is analyzed using a diffraction spectrum in two kinds of sensor construction methods, i.e., transmission and reflection. In a transmission sensor, the maximum of peak wavelength shifts up to 25 nm under ${1.58} \times {{10}^5}\,\,{\rm Pa}$ pressure. The linear pressure response range exceeds ${2.0} \times {{10}^5}\,\,{\rm Pa}$ and the optimized sensitivity is ${4.9} \times {{10}^3}\,\,{\rm Pa}/{\rm nm}$. Compared to the reflection sensor, the transmission sensor with large slanted angle can provide a more excellent sensing performance. The linear and reversible peak wavelength shifts confirm the applicability of the holographic pressure sensor. A photopolymer-based holographic pressure sensor is expected to apply in a cheap and visual pressure sensing field. The transmission grating is a significant candidate for developing the holographic sensor. These experimental results can accelerate the development and practicality of holographic optical elements.

© 2019 Optical Society of America

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