Digital in-line holography in a droplet with cavitation air bubbles

S. Coëtmellec; D. Pejchang; D. Allano; G. Gréhan; D. Lebrun; M. Brunel; A.J.E.M. Janssen

doi:10.2971/jeos.2014.14056

Digital in-line holography in a droplet with cavitation air bubbles

S. Coëtmellec
, D. Pejchang
, D. Allano
, G. Gréhan
, D. Lebrun
, M. Brunel
, A.J.E.M. Janssen

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

13 Citations (Scopus)

147 Downloads (Pure)

Abstract

In this publication, the modelisation of an air bubble as inclusion in a droplet is treated from scalar theory point of view (Fresnel’s theory). The elaborated model is compared with Lorenz–Mie scattering theory and with an experimental results. Circle polynomials and scaled pupil function are the background of this work to take into account the critical angle effect that arises at a transition from a higher index to a lower index medium. Keywords: Digital in-line holography, bubble inclusions, nanoparticles

Original language	English
Pages (from-to)	14056-1/10
Number of pages	10
Journal	Journal of the European Optical Society: Rapid Publications
Volume	9
DOIs	https://doi.org/10.2971/jeos.2014.14056
Publication status	Published - 2014

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10.2971/jeos.2014.14056

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abstract = "In this publication, the modelisation of an air bubble as inclusion in a droplet is treated from scalar theory point of view (Fresnel{\textquoteright}s theory). The elaborated model is compared with Lorenz–Mie scattering theory and with an experimental results. Circle polynomials and scaled pupil function are the background of this work to take into account the critical angle effect that arises at a transition from a higher index to a lower index medium. Keywords: Digital in-line holography, bubble inclusions, nanoparticles",

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AU - Coëtmellec, S.

AU - Pejchang, D.

AU - Allano, D.

AU - Gréhan, G.

AU - Lebrun, D.

AU - Brunel, M.

AU - Janssen, A.J.E.M.

PY - 2014

Y1 - 2014

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AB - In this publication, the modelisation of an air bubble as inclusion in a droplet is treated from scalar theory point of view (Fresnel’s theory). The elaborated model is compared with Lorenz–Mie scattering theory and with an experimental results. Circle polynomials and scaled pupil function are the background of this work to take into account the critical angle effect that arises at a transition from a higher index to a lower index medium. Keywords: Digital in-line holography, bubble inclusions, nanoparticles

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DO - 10.2971/jeos.2014.14056

M3 - Article

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JF - Journal of the European Optical Society: Rapid Publications

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Digital in-line holography in a droplet with cavitation air bubbles

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