Simultaneous measurement of phase retardation and fast axis azimuth of wave plate based on equivalent component and phase detection

Chen, Qianghua; Ding, Jieying; Yu, Gui; Han, Wei; Zhou, Sheng; He, Yunfei; Wang, Rui

doi:10.1088/1361-6501/ac72fb

Meas. Sci. Technol.

2022

DOI: 10.1088/1361-6501/ac72fb

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Simultaneous measurement of phase retardation and fast axis azimuth of wave plate based on equivalent component and phase detection

Qianghua Chen¹,

Jieying Ding²,

Gui Yu³

et al.

Abstract: Wave plates (WPs) are key components in optical polarization systems whose phase retardations and fast axis azimuths should be determined accurately. At present many measurement methods are based on light intensity detection which is inevitably affected by light intensity fluctuations so that the measurement accuracy is limited. What’s more, quite a few methods cannot measure WPs’ fast axis azimuths simultaneously. In this paper a method of simultaneously measuring the phase retardation and fast axis azimuth o… Show more

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2024

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Cited by 2 publications

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One-shot measurement of birefringence by radial analysis

Zhu,

Zhang,

Wang

et al. 2024

Measurement

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One-shot measurement of birefringence by radial analysis

Zhu,

Zhang,

Wang

et al. 2024

Measurement

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Measuring linear birefringence via rotating-sample transmission Stokes spectropolarimetry

Lima,

Silva,

Araujo

et al. 2024

Appl. Opt.

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Linear birefringence is a fundamental property of optically anisotropic media, defined by the difference in refractive index experienced by light polarized along orthogonal directions. It is usually manifested in microscopically aligned molecular systems, where a preferential direction of light–matter interaction is created. For instance, the anisotropic structure of calcite crystal causes the famous double-refraction phenomenon. Another common example is commercial adhesive tapes, which are polymeric materials possessing birefringent properties due to their manufacturing processes. The intrinsic relation between birefringence and molecular alignment forges a new analytical route to study materials such as polymeric thin films. Therefore, the capacity of measuring linear birefringence and its fast axis is of paramount importance for the science of anisotropic molecular systems. In this contribution, a comprehensive approach to acquire linear birefringence using rotating-sample transmission Stokes spectropolarimetry is presented and applied to transparent adhesive tapes as a case study. The experimental setup comprises a thermal light source and a spectropolarimeter capable of determining wavelength distributions of Stokes parameters. The samples are carefully aligned in a rotating mount and subjected to a fixed broadband vertically polarized light beam. Then, the transmitted light is analyzed using a rotating retarder type of spectropolarimeter. Through systematic variation of the sample’s angular position, the Stokes parameters of transmitted light are measured for each transmitted wavelength as a function of the sample’s angular position. The linear retardance and fast axis direction relative to the tape’s long axis are then determined from the modulation of Stokes parameters over sample rotation. The model derivation, experimental procedure, and signal processing protocol are described in detail, and the approach is verified with a simple correlation between linear retardance and the number of stacked layers of tape.

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Simultaneous measurement of phase retardation and fast axis azimuth of wave plate based on equivalent component and phase detection

Cited by 2 publications

References 20 publications

One-shot measurement of birefringence by radial analysis

One-shot measurement of birefringence by radial analysis

Measuring linear birefringence via rotating-sample transmission Stokes spectropolarimetry

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