Polarization-modulated, goos-hanchen shift sensing for common mode drift suppression

Yuhang Wan; Mengxuan Cheng; Zheng Zheng; Kai Liu

doi:10.3390/s19092088

Polarization-modulated, goos-hanchen shift sensing for common mode drift suppression

Yuhang Wan
, Mengxuan Cheng
, Zheng Zheng
, Kai Liu^*

^*Corresponding author for this work

School of Electronic and Information Engineering

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

A polarization-modulation-based Goos-Hanchen (GH) sensing scheme leveraging the polarization-dependence of the Bloch surface wave enhanced GH shift is proposed and experimentally demonstrated. Based on a simple setup utilizing a liquid crystal modulator to switch the polarization state of the input beam periodically, the alternating positions of the reflected beam for both polarizations are monitored by a lock-in amplifier to handily retrieve the GH shift signal. The conventional direct measurement of the beam position for the target state of polarization is vulnerable to instabilities in the optomechanical setup and alignment. Our proposed scheme provides a sensitive yet robust GH shift-sensing setup where the common mode drift and noise could be suppressed to ensure better system stability.

Original language	English
Article number	2088
Journal	Sensors
Volume	19
Issue number	9
DOIs	https://doi.org/10.3390/s19092088
State	Published - 1 May 2019

Keywords

Optical instruments
Optics at surfaces
Refractive index sensors
Surface waves

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10.3390/s19092088

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title = "Polarization-modulated, goos-hanchen shift sensing for common mode drift suppression",

abstract = "A polarization-modulation-based Goos-Hanchen (GH) sensing scheme leveraging the polarization-dependence of the Bloch surface wave enhanced GH shift is proposed and experimentally demonstrated. Based on a simple setup utilizing a liquid crystal modulator to switch the polarization state of the input beam periodically, the alternating positions of the reflected beam for both polarizations are monitored by a lock-in amplifier to handily retrieve the GH shift signal. The conventional direct measurement of the beam position for the target state of polarization is vulnerable to instabilities in the optomechanical setup and alignment. Our proposed scheme provides a sensitive yet robust GH shift-sensing setup where the common mode drift and noise could be suppressed to ensure better system stability.",

keywords = "Optical instruments, Optics at surfaces, Refractive index sensors, Surface waves",

author = "Yuhang Wan and Mengxuan Cheng and Zheng Zheng and Kai Liu",

note = "Publisher Copyright: {\textcopyright} 2019 by the authors.",

year = "2019",

month = may,

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doi = "10.3390/s19092088",

language = "英语",

volume = "19",

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T1 - Polarization-modulated, goos-hanchen shift sensing for common mode drift suppression

AU - Wan, Yuhang

AU - Cheng, Mengxuan

AU - Zheng, Zheng

AU - Liu, Kai

PY - 2019/5/1

Y1 - 2019/5/1

N2 - A polarization-modulation-based Goos-Hanchen (GH) sensing scheme leveraging the polarization-dependence of the Bloch surface wave enhanced GH shift is proposed and experimentally demonstrated. Based on a simple setup utilizing a liquid crystal modulator to switch the polarization state of the input beam periodically, the alternating positions of the reflected beam for both polarizations are monitored by a lock-in amplifier to handily retrieve the GH shift signal. The conventional direct measurement of the beam position for the target state of polarization is vulnerable to instabilities in the optomechanical setup and alignment. Our proposed scheme provides a sensitive yet robust GH shift-sensing setup where the common mode drift and noise could be suppressed to ensure better system stability.

AB - A polarization-modulation-based Goos-Hanchen (GH) sensing scheme leveraging the polarization-dependence of the Bloch surface wave enhanced GH shift is proposed and experimentally demonstrated. Based on a simple setup utilizing a liquid crystal modulator to switch the polarization state of the input beam periodically, the alternating positions of the reflected beam for both polarizations are monitored by a lock-in amplifier to handily retrieve the GH shift signal. The conventional direct measurement of the beam position for the target state of polarization is vulnerable to instabilities in the optomechanical setup and alignment. Our proposed scheme provides a sensitive yet robust GH shift-sensing setup where the common mode drift and noise could be suppressed to ensure better system stability.

KW - Optical instruments

KW - Optics at surfaces

KW - Refractive index sensors

KW - Surface waves

UR - https://www.scopus.com/pages/publications/85065644586

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DO - 10.3390/s19092088

M3 - 文章

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AN - SCOPUS:85065644586

SN - 1424-8220

VL - 19

JO - Sensors

JF - Sensors

IS - 9

M1 - 2088

ER -

Polarization-modulated, goos-hanchen shift sensing for common mode drift suppression

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Keywords

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