Broadband anisotropic photoresponse of the “hydrogen atom” version type-II Weyl semimetal candidate TaIrTe4
The layered ternary compound TaIrTe4 is an important candidate to host the recently predicted type-II Weyl Fermions that break Lorentz invariance. Photodetectors based on Weyl semimetal promise extreme performance in terms of highly sensitive, broadband, and self-powered operation owing to its topol...
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sg-ntu-dr.10356-853632020-06-01T10:01:37Z Broadband anisotropic photoresponse of the “hydrogen atom” version type-II Weyl semimetal candidate TaIrTe4 Lai, Jiawei Liu, Yinan Ma, Junchao Zhuo, Xiao Peng, Yu Lu, Wei Liu, Zheng Chen, Jianhao Sun, Dong School of Materials Science & Engineering Centre for Programmed Materials Engineering::Materials Weyl Semimetal Photodetector The layered ternary compound TaIrTe4 is an important candidate to host the recently predicted type-II Weyl Fermions that break Lorentz invariance. Photodetectors based on Weyl semimetal promise extreme performance in terms of highly sensitive, broadband, and self-powered operation owing to its topologically protected band structures. In this work, we report the realization of a broadband self-powered photodetector based on TaIrTe4. The photocurrent generation mechanisms are investigated with power- and temperature-dependent photoresponse measurements. The prototype metal-TaIrTe4-metal photodetector exhibits a responsivity of 20 μA W–1 or a specific detectivity of 1.8 × 106 Jones with 27 μs response time at 10.6 μm. Broadband responses from 532 nm to 10.6 μm are experimentally tested with potential detection range extendable to far-infrared and terahertz. Furthermore, anisotropic response of the TaIrTe4 photodetector is identified using polarization-angle-dependent measurement with linearly polarized light. The anisotropy is found to be wavelength dependent, and the degree of anisotropy increases as the excitation wavelength gets closer to the Weyl nodes. Our results suggest this emerging class of materials can be harnessed for broadband, polarization angle-sensitive, self-powered photodetection with reasonable responsivities. 2019-07-09T06:45:35Z 2019-12-06T16:02:29Z 2019-07-09T06:45:35Z 2019-12-06T16:02:29Z 2018 Journal Article Lai, J., Liu, Y., Ma, J., Zhuo, X., Peng, Y., Lu, W., . . . Sun, D. (2018). Broadband anisotropic photoresponse of the “hydrogen atom” version type-II Weyl semimetal candidate TaIrTe4. ACS Nano, 12(4), 4055-4061. doi:10.1021/acsnano.8b01897 1936-0851 https://hdl.handle.net/10356/85363 http://hdl.handle.net/10220/49210 10.1021/acsnano.8b01897 en ACS Nano © 2018 American Chemical Society. All rights reserved. |
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Engineering::Materials Weyl Semimetal Photodetector Lai, Jiawei Liu, Yinan Ma, Junchao Zhuo, Xiao Peng, Yu Lu, Wei Liu, Zheng Chen, Jianhao Sun, Dong Broadband anisotropic photoresponse of the “hydrogen atom” version type-II Weyl semimetal candidate TaIrTe4 |
| description |
The layered ternary compound TaIrTe4 is an important candidate to host the recently predicted type-II Weyl Fermions that break Lorentz invariance. Photodetectors based on Weyl semimetal promise extreme performance in terms of highly sensitive, broadband, and self-powered operation owing to its topologically protected band structures. In this work, we report the realization of a broadband self-powered photodetector based on TaIrTe4. The photocurrent generation mechanisms are investigated with power- and temperature-dependent photoresponse measurements. The prototype metal-TaIrTe4-metal photodetector exhibits a responsivity of 20 μA W–1 or a specific detectivity of 1.8 × 106 Jones with 27 μs response time at 10.6 μm. Broadband responses from 532 nm to 10.6 μm are experimentally tested with potential detection range extendable to far-infrared and terahertz. Furthermore, anisotropic response of the TaIrTe4 photodetector is identified using polarization-angle-dependent measurement with linearly polarized light. The anisotropy is found to be wavelength dependent, and the degree of anisotropy increases as the excitation wavelength gets closer to the Weyl nodes. Our results suggest this emerging class of materials can be harnessed for broadband, polarization angle-sensitive, self-powered photodetection with reasonable responsivities. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Lai, Jiawei Liu, Yinan Ma, Junchao Zhuo, Xiao Peng, Yu Lu, Wei Liu, Zheng Chen, Jianhao Sun, Dong |
| format |
Article |
| author |
Lai, Jiawei Liu, Yinan Ma, Junchao Zhuo, Xiao Peng, Yu Lu, Wei Liu, Zheng Chen, Jianhao Sun, Dong |
| author_sort |
Lai, Jiawei |
| title |
Broadband anisotropic photoresponse of the “hydrogen atom” version type-II Weyl semimetal candidate TaIrTe4 |
| title_short |
Broadband anisotropic photoresponse of the “hydrogen atom” version type-II Weyl semimetal candidate TaIrTe4 |
| title_full |
Broadband anisotropic photoresponse of the “hydrogen atom” version type-II Weyl semimetal candidate TaIrTe4 |
| title_fullStr |
Broadband anisotropic photoresponse of the “hydrogen atom” version type-II Weyl semimetal candidate TaIrTe4 |
| title_full_unstemmed |
Broadband anisotropic photoresponse of the “hydrogen atom” version type-II Weyl semimetal candidate TaIrTe4 |
| title_sort |
broadband anisotropic photoresponse of the “hydrogen atom” version type-ii weyl semimetal candidate tairte4 |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/85363 http://hdl.handle.net/10220/49210 |
| _version_ |
1681058606122795008 |