Epitaxial indium antimonide for multiband photodetection from IR to millimeter/terahertz wave
Conventional photodetection converts light into electrical signals only in a single electromagnetic waveband. Multiband detection technology is highly desirable because it can handle multispectral information discrimination, identification, and processing. Current epitaxial solid-state multiband det...
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sg-ntu-dr.10356-1616592022-09-13T07:26:29Z Epitaxial indium antimonide for multiband photodetection from IR to millimeter/terahertz wave Tong, Jinchao Luo, Heng Suo, Fei Zhang, Tianning Zhang, Dawei Zhang, Dao Hua School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Detection Technology Electrical Signal Conventional photodetection converts light into electrical signals only in a single electromagnetic waveband. Multiband detection technology is highly desirable because it can handle multispectral information discrimination, identification, and processing. Current epitaxial solid-state multiband detection technologies are mainly within the IR wave range. Here, we report epitaxial indium antimonide on gallium arsenide for IR and millimeter/terahertz wave multiband photodetection. The photoresponse originates from interband transition in optoelectrical semiconductors for IR wave, and surface plasmon polaritons induced nonequilibrium electrons for a millimeter/terahertz wave. The detector shows a strong response for an IR wave with a cutoff wavelength of 6.85 μm and a blackbody detectivity of 1.8 × 109 Jones at room temperature. For a millimeter/terahertz wave, the detector demonstrates broadband detection from 0.032 THz (9.4 mm) to 0.330 THz (0.9 mm); that is, from Ka to the W and G bands, with a noise equivalent power of 1.0 × 10−13 W Hz−1∕2 at 0.270 THz (1.1 mm) at room temperature. The detection performance is an order of magnitude better while decreasing the temperature to 170 K, the thermoelectric cooling level. Such detectors, capable of large scale and low cost, are promising for advanced uncooled multiband detection and imaging systems. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Submitted/Accepted version Agency for Science, Technology and Research (SERC 1720700038, SERC A1883c0002); Ministry of Education—Singapore (2017-T1-002-117). 2022-09-13T07:26:29Z 2022-09-13T07:26:29Z 2022 Journal Article Tong, J., Luo, H., Suo, F., Zhang, T., Zhang, D. & Zhang, D. H. (2022). Epitaxial indium antimonide for multiband photodetection from IR to millimeter/terahertz wave. Photonics Research, 10(5), 1194-1201. https://dx.doi.org/10.1364/PRJ.444354 2327-9125 https://hdl.handle.net/10356/161659 10.1364/PRJ.444354 2-s2.0-85130121847 5 10 1194 1201 en SERC 1720700038 SERC A1883c0002 2017-T1-002-117 Photonics Research © 2022 Chinese Laser Press. This paper was published in Photonics Research and is made available with permission of Chinese Laser Press. application/pdf |
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Engineering::Electrical and electronic engineering Detection Technology Electrical Signal Tong, Jinchao Luo, Heng Suo, Fei Zhang, Tianning Zhang, Dawei Zhang, Dao Hua Epitaxial indium antimonide for multiband photodetection from IR to millimeter/terahertz wave |
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Conventional photodetection converts light into electrical signals only in a single electromagnetic waveband. Multiband detection technology is highly desirable because it can handle multispectral information discrimination, identification, and processing. Current epitaxial solid-state multiband detection technologies are mainly within the IR wave range. Here, we report epitaxial indium antimonide on gallium arsenide for IR and millimeter/terahertz wave multiband photodetection. The photoresponse originates from interband transition in optoelectrical semiconductors for IR wave, and surface plasmon polaritons induced nonequilibrium electrons for a millimeter/terahertz wave. The detector shows a strong response for an IR wave with a cutoff wavelength of 6.85 μm and a blackbody detectivity of 1.8 × 109 Jones at room temperature. For a millimeter/terahertz wave, the detector demonstrates broadband detection from 0.032 THz (9.4 mm) to 0.330 THz (0.9 mm); that is, from Ka to the W and G bands, with a noise equivalent power of 1.0 × 10−13 W Hz−1∕2 at 0.270 THz (1.1 mm) at room temperature. The detection performance is an order of magnitude better while decreasing the temperature to 170 K, the thermoelectric cooling level. Such detectors, capable of large scale and low cost, are promising for advanced uncooled multiband detection and imaging systems. |
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School of Electrical and Electronic Engineering |
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School of Electrical and Electronic Engineering Tong, Jinchao Luo, Heng Suo, Fei Zhang, Tianning Zhang, Dawei Zhang, Dao Hua |
| format |
Article |
| author |
Tong, Jinchao Luo, Heng Suo, Fei Zhang, Tianning Zhang, Dawei Zhang, Dao Hua |
| author_sort |
Tong, Jinchao |
| title |
Epitaxial indium antimonide for multiband photodetection from IR to millimeter/terahertz wave |
| title_short |
Epitaxial indium antimonide for multiband photodetection from IR to millimeter/terahertz wave |
| title_full |
Epitaxial indium antimonide for multiband photodetection from IR to millimeter/terahertz wave |
| title_fullStr |
Epitaxial indium antimonide for multiband photodetection from IR to millimeter/terahertz wave |
| title_full_unstemmed |
Epitaxial indium antimonide for multiband photodetection from IR to millimeter/terahertz wave |
| title_sort |
epitaxial indium antimonide for multiband photodetection from ir to millimeter/terahertz wave |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161659 |
| _version_ |
1744365394570772480 |