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Dual-comb photoacoustic spectroscopy

Author

Listed:
  • Jacob T. Friedlein

    (Applied Physics Division)

  • Esther Baumann

    (Applied Physics Division
    University of Colorado)

  • Kimberly A. Briggman

    (Applied Physics Division)

  • Gabriel M. Colacion

    (Applied Physics Division
    University of Colorado
    University of New Mexico)

  • Fabrizio R. Giorgetta

    (Applied Physics Division
    University of Colorado)

  • Aaron M. Goldfain

    (Applied Physics Division)

  • Daniel I. Herman

    (Applied Physics Division
    University of Colorado)

  • Eli V. Hoenig

    (Applied Physics Division
    University of Colorado
    University of Chicago)

  • Jeeseong Hwang

    (Applied Physics Division)

  • Nathan R. Newbury

    (Applied Physics Division)

  • Edgar F. Perez

    (Applied Physics Division
    University of Colorado
    University of Maryland)

  • Christopher S. Yung

    (Applied Physics Division)

  • Ian Coddington

    (Applied Physics Division)

  • Kevin C. Cossel

    (Applied Physics Division)

Abstract

Spectrally resolved photoacoustic imaging is promising for label-free imaging in optically scattering materials. However, this technique often requires acquisition of a separate image at each wavelength of interest. This reduces imaging speeds and causes errors if the sample changes in time between images acquired at different wavelengths. We demonstrate a solution to this problem by using dual-comb spectroscopy for photoacoustic measurements. This approach enables a photoacoustic measurement at thousands of wavelengths simultaneously. In this technique, two optical-frequency combs are interfered on a sample and the resulting pressure wave is measured with an ultrasound transducer. This acoustic signal is processed in the frequency-domain to obtain an optical absorption spectrum. For a proof-of-concept demonstration, we measure photoacoustic signals from polymer films. The absorption spectra obtained from these measurements agree with those measured using a spectrophotometer. Improving the signal-to-noise ratio of the dual-comb photoacoustic spectrometer could enable high-speed spectrally resolved photoacoustic imaging.

Suggested Citation

  • Jacob T. Friedlein & Esther Baumann & Kimberly A. Briggman & Gabriel M. Colacion & Fabrizio R. Giorgetta & Aaron M. Goldfain & Daniel I. Herman & Eli V. Hoenig & Jeeseong Hwang & Nathan R. Newbury & E, 2020. "Dual-comb photoacoustic spectroscopy," Nature Communications, Nature, vol. 11(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16917-y
    DOI: 10.1038/s41467-020-16917-y
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    Cited by:

    1. Daowang Peng & Chenglin Gu & Zhong Zuo & Yuanfeng Di & Xing Zou & Lulu Tang & Lunhua Deng & Daping Luo & Yang Liu & Wenxue Li, 2023. "Dual-comb optical activity spectroscopy for the analysis of vibrational optical activity induced by external magnetic field," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    2. Xinyi Ren & Jin Pan & Ming Yan & Jiteng Sheng & Cheng Yang & Qiankun Zhang & Hui Ma & Zhaoyang Wen & Kun Huang & Haibin Wu & Heping Zeng, 2023. "Dual-comb optomechanical spectroscopy," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    3. Xiaoxiang Gao & Xiangjun Chen & Hongjie Hu & Xinyu Wang & Wentong Yue & Jing Mu & Zhiyuan Lou & Ruiqi Zhang & Keren Shi & Xue Chen & Muyang Lin & Baiyan Qi & Sai Zhou & Chengchangfeng Lu & Yue Gu & Xi, 2022. "A photoacoustic patch for three-dimensional imaging of hemoglobin and core temperature," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    4. Qiang Wang & Zhen Wang & Hui Zhang & Shoulin Jiang & Yingying Wang & Wei Jin & Wei Ren, 2022. "Dual-comb photothermal spectroscopy," Nature Communications, Nature, vol. 13(1), pages 1-7, December.

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