High-Speed Nonlinear Interferometric Vibrational Imaging of Biological Tissue With Comparison to Raman Microscopy

Vibrational contrast imaging of the distribution of complex biological molecules requires the use of techniques that provide broadband spectra with sufficient resolution. Coherent anti-Stokes Raman scattering (CARS) microscopy is currently limited in meeting these requirements due to the presence of...

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Veröffentlicht in:	IEEE journal of quantum electronics 2010-07, Vol.16 (4), p.824-832
Hauptverfasser:	Benalcazar, W A, Chowdary, P D, Zhi Jiang, Marks, D L, Chaney, E J, Gruebele, M, Boppart, S A
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Sprache:	eng
Schlagworte:	Biological Biological materials Biological tissue Biological tissues Broadband Cars Chirp coherent anti-Stokes Raman scattering (CARS) High-resolution imaging Image resolution Image retrieval Imaging interferometry Microscopy nonlinear interferometric vibrational imaging (NIVI) Nonlinearity optical imaging Phase detection Pumps Raman scattering Resonance Spectra spectroscopy
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creator	Benalcazar, W A Chowdary, P D Zhi Jiang Marks, D L Chaney, E J Gruebele, M Boppart, S A
description	Vibrational contrast imaging of the distribution of complex biological molecules requires the use of techniques that provide broadband spectra with sufficient resolution. Coherent anti-Stokes Raman scattering (CARS) microscopy is currently limited in meeting these requirements due to the presence of a nonresonant background and its inability to target multiple resonances simultaneously. We present nonlinear interferometric vibrational imaging (NIVI), a technique based on CARS that uses femtosecond pump and Stokes pulses to retrieve broadband vibrational spectra over 200 cm -1 (full-width at half maximum). By chirping the pump and performing spectral interferometric detection, the anti-Stokes pulses are resolved in time. This phase-sensitive detection allows suppression of not only the nonresonant background, but also of the real part of the nonlinear susceptibility χ (3) , improving the spectral resolution and features to make them comparable to those acquired with spontaneous Raman microscopy, as shown for a material sample and mammary tissue.
doi_str_mv	10.1109/JSTQE.2009.2035537
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Coherent anti-Stokes Raman scattering (CARS) microscopy is currently limited in meeting these requirements due to the presence of a nonresonant background and its inability to target multiple resonances simultaneously. We present nonlinear interferometric vibrational imaging (NIVI), a technique based on CARS that uses femtosecond pump and Stokes pulses to retrieve broadband vibrational spectra over 200 cm -1 (full-width at half maximum). By chirping the pump and performing spectral interferometric detection, the anti-Stokes pulses are resolved in time. 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Coherent anti-Stokes Raman scattering (CARS) microscopy is currently limited in meeting these requirements due to the presence of a nonresonant background and its inability to target multiple resonances simultaneously. We present nonlinear interferometric vibrational imaging (NIVI), a technique based on CARS that uses femtosecond pump and Stokes pulses to retrieve broadband vibrational spectra over 200 cm -1 (full-width at half maximum). By chirping the pump and performing spectral interferometric detection, the anti-Stokes pulses are resolved in time. 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subjects	Biological Biological materials Biological tissue Biological tissues Broadband Cars Chirp coherent anti-Stokes Raman scattering (CARS) High-resolution imaging Image resolution Image retrieval Imaging interferometry Microscopy nonlinear interferometric vibrational imaging (NIVI) Nonlinearity optical imaging Phase detection Pumps Raman scattering Resonance Spectra spectroscopy
title	High-Speed Nonlinear Interferometric Vibrational Imaging of Biological Tissue With Comparison to Raman Microscopy
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