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Bragg grating etalon-based optical fiber for ultrasound and optoacoustic detection.
Nat. Commun. 15:7521 (2024)
Fiber-based interferometers receive significant interest as they lead to miniaturization of optoacoustic and ultrasound detectors without the quadratic loss of sensitivity common to piezoelectric elements. Nevertheless, in contrast to piezoelectric crystals, current fiber-based ultrasound detectors operate with narrow ultrasound bandwidth which limits the application range and spatial resolution achieved in imaging implementations. We port the concept of silicon waveguide etalon detection to optical fibers using a sub-acoustic reflection terminator to a Bragg grating embedded etalon resonator (EER), uniquely implementing direct and forward-looking access to incoming ultrasound waves. Precise fabrication of the terminator is achieved by continuously recording the EER spectrum during polishing and fitting the spectra to a theoretically calculated spectrum for the selected thickness. Characterization of the EER inventive design reveals a small aperture (10.1 µm) and an ultra-wide bandwidth (160 MHz) that outperforms other fiber resonators and enables an active detection area and overall form factor that is smaller by more than an order of magnitude over designs based on piezoelectric transducers. We discuss how the EER paves the way for the most adept fiber-based miniaturized sound detection today, circumventing the limitations of currently available designs.
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Publication type
Article: Journal article
Document type
Scientific Article
Keywords
Microscopy; Strategies; Resonator
Language
english
Publication Year
2024
HGF-reported in Year
2024
ISSN (print) / ISBN
2041-1723
e-ISSN
2041-1723
Journal
Nature Communications
Quellenangaben
Volume: 15,
Issue: 1,
Article Number: 7521
Publisher
Nature Publishing Group
Publishing Place
London
Reviewing status
Peer reviewed
Institute(s)
Institute of Biological and Medical Imaging (IBMI)
POF-Topic(s)
30205 - Bioengineering and Digital Health
Research field(s)
Enabling and Novel Technologies
PSP Element(s)
G-505500-001
Grants
European Union
European Research Council (ERC)
DZHK (German Centre for Cardiovascular Research)
Deutsche Forschungsgemeinschaft (DFG), Germany
European Research Council (ERC)
DZHK (German Centre for Cardiovascular Research)
Deutsche Forschungsgemeinschaft (DFG), Germany
WOS ID
001399011000010
Scopus ID
85202785463
PubMed ID
39214964
Erfassungsdatum
2024-10-07