Abstract
Controlling the polarization state of light has been a significant issue for various integrated optical devices such as optical imaging, sensors, and communications. Recent advances in metamaterials enable the optical elements for controlling light to be miniaturized and to have various multi-functions in subwavelength scale. However, a conventional approach of a circular polarizer has an inherent limitation to eliminate the unwanted circular polarization, which means that the efficiency varies significantly depending on the polarization state of incident light. Here, we propose a novel concept of a circular polarizer by combining two functions of transmission and conversion for orthogonal circular polarizations with a total thickness of 440 nm. The proposed three-layer metasurface composed of rotating silver nanorods transmits the left-handed circularly polarized (LCP) light with maintaining its own polarization state, whereas the right-handed circularly polarized (RCP) light is converted into LCP light. Regardless of the polarization state of incoming light, the polarization of light in the last medium is LCP state in the broadband operating wavelength range from 800 nm to 1100 nm. The converted RCP and the transmitted LCP have efficiencies of up to 48.5% and 42.3%, respectively. Thus the proposed metasurface serves as a stable circular polarizer for a randomly polarized light. In addition, high-efficiency asymmetric transmission of about 0.47 is achieved at the same time due to the conversion characteristic of RCP component. The proposed metasurface has the significance as an ultra-thin optical element applicable to optical switching, sensors, and communications in unidirectional channel as well as a broadband circular polarizer for randomly polarized light.
Highlights
Polarization is a unique nature of light that cannot be distinguished by human eyes
The transmission spectra for left-handed circularly polarized (LCP) and right-handed circularly polarized (RCP) incidences are shown in Fig. 4(a) with the comparison of numerical simulation and theoretical calculation at the condition of the highest figure of merit (FoM) where the rotation angle θ is 53 degrees
Even in the case of randomly polarized light in which the intensity of each circularly polarized light has a random distribution of values between 0 and 1, almost constant efficiency of LCP light is transmitted under this condition, TLfL ≈ TLfR
Summary
The LCP component of total transmitted light is written by tLCP = |TLfL|2 ILCP + |TLfR|2 IRCP, tRCP = |TRfL|2 ILCP + |TRfR|2 IRCP,. The extinction ratio (ER) is defined as the ratio of LCP to RCP in total transmitted light, ER = (|TLfL|2 + |TLfR|2 )/(|TRfL|2 + |TRfR|2 ), including all four components in transmission matrix. To achieve high performance as a circular polarizer, the proposed structure should have a high value of the ER. The proposed metasurface is designed based on this argument, and the analysis of characteristics and principles will be followed
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