Fabry-Pérot interferometry for long range displacement sensing

Thurner, Klaus; Karrai, Khaled; Braun, Pierre-François

doi:10.1063/1.4821623

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Fabry-Pérot interferometry for long range displacement sensing

Author(s): Klaus Thurner , Pierre-François Braun , Khaled Karrai

Publication date Created: September 2013

Publication date (Print): September 2013

Journal: Review of Scientific Instruments

Publisher: AIP Publishing

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Most cited references 16

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Improved fiber‐optic interferometer for atomic force microscopy

D Rugar, P. Guethner, H J Mamin (1989)

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Physical origin of the Gouy phase shift.

H G Winful, S Feng (2001)

We show explicitly that the well-known Gouy phase shift of any focused beam originates from transverse spatial confinement, which, through the uncertainty principle, introduces a spread in the transverse momenta and hence a shift in the expectation value of the axial propagation constant. A general expression is given for the Gouy phase shift in terms of expectation values of the squares of the transverse momenta. Our result also explains the phase shift in front of the Kirchhoff diffraction integral.