材料科学
红外线的
光学
光电子学
圆极化
波长
相(物质)
光子学
极化(电化学)
介电常数
超材料
电介质
物理
物理化学
微带线
化学
量子力学
作者
Haotian Tang,Liliana Stan,David A. Czaplewski,Xiaodong Yang,Jie Gao
出处
期刊:Optics Express
[The Optical Society]
日期:2023-06-08
卷期号:31 (13): 21118-21118
被引量:9
摘要
Optical phase-change materials exhibit tunable permittivity and switching properties during phase transition, which offers the possibility of dynamic control of optical devices. Here, a wavelength-tunable infrared chiral metasurface integrated with phase-change material GST-225 is demonstrated with the designed unit cell of parallelogram-shaped resonator. By varying the baking time at a temperature above the phase transition temperature of GST-225, the resonance wavelength of the chiral metasurface is tuned in the wavelength range of 2.33 µm to 2.58 µm, while the circular dichroism in absorption is maintained around 0.44. The chiroptical response of the designed metasurface is revealed by analyzing the electromagnetic field and displacement current distributions under left- and right-handed circularly polarized (LCP and RCP) light illumination. Moreover, the photothermal effect is simulated to investigate the large temperature difference in the chiral metasurface under LCP and RCP illumination, which allows for the possibility of circular polarization-controlled phase transition. The presented chiral metasurfaces with phase-change materials offer the potential to facilitate promising applications in the infrared regime, such as chiral thermal switching, infrared imaging, and tunable chiral photonics.
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