Giant Terahertz Birefringence in an Ultrathin Anisotropic Semimetal

Manipulating the polarization of light at the nanoscale is key to the development of next-generation optoelectronic devices. This is typically done via waveplates using optically anisotropic crystals, with thicknesses on the order of the wavelength. Here, using a novel ultrafast electron-beam-based...

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Bibliographic Details
Published in:Nano letters 2024-05, Vol.24 (20), p.6031-6037
Main Authors: Sie, Edbert J., Othman, Mohamed A. K., Nyby, Clara M., Pemmaraju, Das, Garcia, Christina A. C., Wang, Yaxian, Guzelturk, Burak, Xia, Chenyi, Xiao, Jun, Poletayev, Andrey, Ofori-Okai, Benjamin K., Hoffmann, Matthias C., Park, Suji, Shen, Xiaozhe, Yang, Jie, Li, Renkai, Reid, Alexander H., Weathersby, Stephen, Muscher, Philipp, Finney, Nathan, Rhodes, Daniel, Balicas, Luis, Nanni, Emilio, Hone, James, Chueh, William, Devereaux, Thomas P., Narang, Prineha, Heinz, Tony F., Wang, Xijie, Lindenberg, Aaron M.
Format: Article
Language:English
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Summary:Manipulating the polarization of light at the nanoscale is key to the development of next-generation optoelectronic devices. This is typically done via waveplates using optically anisotropic crystals, with thicknesses on the order of the wavelength. Here, using a novel ultrafast electron-beam-based technique sensitive to transient near fields at THz frequencies, we observe a giant anisotropy in the linear optical response in the semimetal WTe2 and demonstrate that one can tune the THz polarization using a 50 nm thick film, acting as a broadband wave plate with thickness 3 orders of magnitude smaller than the wavelength. The observed circular deflections of the electron beam are consistent with simulations tracking the trajectory of the electron beam in the near field of the THz pulse. This finding offers a promising approach to enable atomically thin THz polarization control using anisotropic semimetals and defines new approaches for characterizing THz near-field optical response at far-subwavelength length scales.
ISSN:1530-6984
1530-6992
DOI:10.1021/acs.nanolett.4c00758