Giant ultrafast dichroism and birefringence with active nonlocal metasurfaces

IF 20.6 Q1 OPTICS Light-Science & Applications Pub Date : 2024-08-23 DOI:10.1038/s41377-024-01545-8

Giulia Crotti, Mert Akturk, Andrea Schirato, Vincent Vinel, Anton A. Trifonov, Ivan C. Buchvarov, Dragomir N. Neshev, Remo Proietti Zaccaria, Paolo Laporta, Aristide Lemaître, Giuseppe Leo, Giulio Cerullo, Margherita Maiuri, Giuseppe Della Valle

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Abstract

Switching of light polarization on the sub-picosecond timescale is a crucial functionality for applications in a variety of contexts, including telecommunications, biology and chemistry. The ability to control polarization at ultrafast speed would pave the way for the development of unprecedented free-space optical links and of novel techniques for probing dynamical processes in complex systems, as chiral molecules. Such high switching speeds can only be reached with an all-optical paradigm, i.e., engineering active platforms capable of controlling light polarization via ultrashort laser pulses. Here we demonstrate giant modulation of dichroism and birefringence in an all-dielectric metasurface, achieved at low fluences of the optical control beam. This performance, which leverages the many degrees of freedom offered by all-dielectric active metasurfaces, is obtained by combining a high-quality factor nonlocal resonance with the giant third-order optical nonlinearity dictated by photogenerated hot carriers at the semiconductor band edge.

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具有活性非局部元表面的巨型超快二色性和双折射

在亚皮秒时间尺度上切换光偏振是电信、生物和化学等各种应用领域的一项关键功能。以超高速控制偏振的能力将为开发前所未有的自由空间光链路和探测手性分子等复杂系统动态过程的新技术铺平道路。只有采用全光学范例，即能够通过超短激光脉冲控制光偏振的有源平台，才能实现如此高的切换速度。在这里，我们展示了在全介质元表面中对二色性和双折射的巨大调制，这是在光学控制光束的低通量下实现的。这种性能充分利用了全介质有源元表面所提供的多种自由度，是通过将高质量因子非局部共振与半导体带边缘光生热载流子所决定的巨大三阶光学非线性相结合而实现的。

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