Colossal Room‐Temperature Terahertz Topological Response in Type‐II Weyl Semimetal NbIrTe 4

The electromagnetic spectrum between microwave and infrared light is termed the “terahertz (THz) gap,” of which there is an urgent lack of feasible and efficient room‐temperature (RT) THz detectors. Type‐II Weyl semimetals (WSMs) have been predicted to host significant RT topological photoresponses...

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Published in:Advanced materials (Weinheim) 2022-10, Vol.34 (42)
Main Authors: Zhang, Jiantian, Zhang, Tianning, Yan, Luo, Zhu, Chao, Shen, Wanfu, Hu, Chunguang, Lei, Hongxiang, Luo, Heng, Zhang, Daohua, Liu, Fucai, Liu, Zheng, Tong, Jinchao, Zhou, Liujiang, Yu, Peng, Yang, Guowei
Format: Article
Language:English
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Summary:The electromagnetic spectrum between microwave and infrared light is termed the “terahertz (THz) gap,” of which there is an urgent lack of feasible and efficient room‐temperature (RT) THz detectors. Type‐II Weyl semimetals (WSMs) have been predicted to host significant RT topological photoresponses in low‐frequency regions, especially in the THz gap, well addressing the shortcomings of THz detectors. However, such devices have not been experimentally realized yet. Herein, a type‐II WSM (NbIrTe 4 ) is selected to fabricate THz detector, which exhibits a photoresponsivity of 5.7 × 10 4  V W −1 and a one‐year air stability at RT. Such excellent THz‐detection performance can be attributed to the topological effect of type‐II WSM in which the effective mass of photogenerated electrons can be reduced by the large tilting angle of Weyl nodes to further improve mobility and photoresponsivity. Impressively, this device shows a giant intrinsic anisotropic conductance (σ max /σ min  = 339) and THz response ( I ph‐max / I ph‐min  = 40.9), both of which are record values known. The findings open a new avenue for the realization of uncooled and highly sensitive THz detectors by exploring type‐II WSM‐based devices.
ISSN:0935-9648
1521-4095
DOI:10.1002/adma.202204621