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Terahertz asynchronous twin-comb for prefiguring hypersensitivity beyond spectrum domain.


ABSTRACT: Lower-frequency characteristics of the terahertz regime confer advantageous low photon energy for biochemical sensing while imposing inherent sensitivity constraints. Here, we demonstrate a terahertz asynchronous twin-comb sensor and an extra-spectrum sensing mechanism through cascading microchannel architecture within a metallic waveguide. The extra-spectrum sensing prefigures an enhanced sensitivity of 4 orders of magnitude compared to existing terahertz biosensing and surpasses its counterpart in the optical band. Hypersensitivities of 0.398 GHz mm2 pg-1 in trace detection manifest through the located characteristic resonance frequency beyond the spectrum domain. Additionally, we observed the photoisomerization of azo dye in the terahertz band with a photoresponse sensitivity of 0.91 GHz cm2 mW-1, opening possibilities for photoactive material-assisted terahertz sensors. In summary, we instantiate an asynchronous twin-comb sensing beyond the spectrum domain, offering a perspective for ultrasensitive sensing, and promising applications in optical frequency comb precision metrology, artificial intelligence photonics, and integrated sensing and communications.

SUBMITTER: Ma L 

PROVIDER: S-EPMC12475147 | biostudies-literature | 2025 Sep

REPOSITORIES: biostudies-literature

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Terahertz asynchronous twin-comb for prefiguring hypersensitivity beyond spectrum domain.

Ma Liang L   Fan Fei F   Feng Jixin J   Shen Peng P   Song Chengwei C   Ji Yunyun Y   Wang Xianghui X   Chang Shengjiang S  

Nature communications 20250926 1


Lower-frequency characteristics of the terahertz regime confer advantageous low photon energy for biochemical sensing while imposing inherent sensitivity constraints. Here, we demonstrate a terahertz asynchronous twin-comb sensor and an extra-spectrum sensing mechanism through cascading microchannel architecture within a metallic waveguide. The extra-spectrum sensing prefigures an enhanced sensitivity of 4 orders of magnitude compared to existing terahertz biosensing and surpasses its counterpar  ...[more]

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