Digital holographic microscopy investigation of second harmonic generated at a glass/air interface

Etienne Shaffer; Nicolas Pavillon; Jonas Kühn; Christian Depeursinge

doi:10.1364/OL.34.002450

Digital holographic microscopy investigation of second harmonic generated at a glass/air interface

Etienne Shaffer^*, Nicolas Pavillon, Jonas Kühn, Christian Depeursinge

^*Corresponding author for this work

Biological, Environmental Sciences and Engineering

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

Optical second-harmonic generation, thanks to its coherent nature, is a suitable signal for interferometric measurements such as digital holography, a well-established imaging technique that allows recovery of complex diffraction wave fields from which it is possible to extract both amplitude-contrast and quantitative phase images. Here, we report on a multifunctional form of microscopy, namely, second-harmonic generation digital holographic microscopy. As a proof of concept, we have investigated the second-harmonic signal generated at the glass/air interface of a microscope slide under focused femtosecond laser illumination, and we propose, for the first time to our knowledge, a representation and interpretation of the recovered phase. In this simple yet educative case study, we observe that the second harmonic is generated by the axial component of the incident field polarization.

Original language	English (US)
Pages (from-to)	2450-2452
Number of pages	3
Journal	Optics Letters
Volume	34
Issue number	16
DOIs	https://doi.org/10.1364/OL.34.002450
State	Published - Aug 15 2009

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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title = "Digital holographic microscopy investigation of second harmonic generated at a glass/air interface",

abstract = "Optical second-harmonic generation, thanks to its coherent nature, is a suitable signal for interferometric measurements such as digital holography, a well-established imaging technique that allows recovery of complex diffraction wave fields from which it is possible to extract both amplitude-contrast and quantitative phase images. Here, we report on a multifunctional form of microscopy, namely, second-harmonic generation digital holographic microscopy. As a proof of concept, we have investigated the second-harmonic signal generated at the glass/air interface of a microscope slide under focused femtosecond laser illumination, and we propose, for the first time to our knowledge, a representation and interpretation of the recovered phase. In this simple yet educative case study, we observe that the second harmonic is generated by the axial component of the incident field polarization.",

author = "Etienne Shaffer and Nicolas Pavillon and Jonas K{\"u}hn and Christian Depeursinge",

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AU - Shaffer, Etienne

AU - Pavillon, Nicolas

AU - Kühn, Jonas

AU - Depeursinge, Christian

PY - 2009/8/15

Y1 - 2009/8/15

N2 - Optical second-harmonic generation, thanks to its coherent nature, is a suitable signal for interferometric measurements such as digital holography, a well-established imaging technique that allows recovery of complex diffraction wave fields from which it is possible to extract both amplitude-contrast and quantitative phase images. Here, we report on a multifunctional form of microscopy, namely, second-harmonic generation digital holographic microscopy. As a proof of concept, we have investigated the second-harmonic signal generated at the glass/air interface of a microscope slide under focused femtosecond laser illumination, and we propose, for the first time to our knowledge, a representation and interpretation of the recovered phase. In this simple yet educative case study, we observe that the second harmonic is generated by the axial component of the incident field polarization.

AB - Optical second-harmonic generation, thanks to its coherent nature, is a suitable signal for interferometric measurements such as digital holography, a well-established imaging technique that allows recovery of complex diffraction wave fields from which it is possible to extract both amplitude-contrast and quantitative phase images. Here, we report on a multifunctional form of microscopy, namely, second-harmonic generation digital holographic microscopy. As a proof of concept, we have investigated the second-harmonic signal generated at the glass/air interface of a microscope slide under focused femtosecond laser illumination, and we propose, for the first time to our knowledge, a representation and interpretation of the recovered phase. In this simple yet educative case study, we observe that the second harmonic is generated by the axial component of the incident field polarization.

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Digital holographic microscopy investigation of second harmonic generated at a glass/air interface

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