Issue 46, 2023

Enhancement of wide-band trace terahertz absorption spectroscopy based on microstructures: a review

Abstract

Research on the interaction between nanoscale materials and light holds significant scientific significance for the development of fields such as optoelectronic conversion and biosensing. The study of micro- and nano-optics has produced numerous outstanding research achievements by utilizing the dielectric optical coupling mechanism and plasmon effects to enhance the interaction between light and matter. These findings have demonstrated tremendous potential for applications in the field of molecular fingerprint sensing. This review focuses on a retrospective analysis of recent research studies in the enhancement of wide-band trace terahertz absorption spectroscopy. The physical mechanisms of using waveguide structures, dielectric metasurfaces/meta-gratings, and spoof surface plasmon polaritons (SSPs) to improve the interaction between light and trace-amount matters are introduced. The new approaches and methods for enhancing broad-band terahertz absorption spectroscopy of trace samples using microstructure designs are discussed. Additionally, we elucidate the scientific ideas and exploratory achievements in enhancing terahertz fingerprint spectroscopy detection. Finally, we provide an outlook on the research and development direction and potential practical applications of absorption spectroscopy enhancement detection.

Graphical abstract: Enhancement of wide-band trace terahertz absorption spectroscopy based on microstructures: a review

Article information

Article type
Review Article
Submitted
29 Sep 2023
Accepted
24 Oct 2023
First published
09 Nov 2023

Phys. Chem. Chem. Phys., 2023,25, 31542-31553

Enhancement of wide-band trace terahertz absorption spectroscopy based on microstructures: a review

D. Yan, J. Cui, X. Li, L. Zhang, J. Li and W. Lu, Phys. Chem. Chem. Phys., 2023, 25, 31542 DOI: 10.1039/D3CP04746F

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