We introduce a visually appealing experimental demonstration of Fresnel reflection. In this simple optical experiment, a polarized light beam travels through a high numerical-aperture microscope objective, reflects off a glass slide, and travels back through the same objective lens. The return beam is sampled with a polarizing beam splitter and produces a surprising geometric pattern on an observation screen. Understanding the origin of this pattern requires careful attention to geometry and an understanding of the Fresnel coefficients for S and P polarized light. We demonstrate that in addition to a relatively simple experimental implementation, the shape of the observed pattern can be computed both analytically and by using optical modeling software. The experience of working through complex mathematical computations and demonstrating their agreement with a surprising experimental observation makes this a highly educational experiment for undergraduate optics or advanced-lab courses. It also provides a straightforward yet non-trivial system for teaching students how to use optical modeling software.
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January 2013
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January 01 2013
Reflection of a polarized light cone
Jed Brody;
Jed Brody
Department of Physics,
Emory University, Atlanta
, Georgia 30322
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Daniel Weiss;
Daniel Weiss
Department of Physics,
Emory University, Atlanta
, Georgia 30322
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Keith Berland
Keith Berland
Department of Physics,
Emory University, Atlanta
, Georgia 30322
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Am. J. Phys. 81, 24–27 (2013)
Article history
Received:
May 18 2011
Accepted:
October 17 2012
Citation
Jed Brody, Daniel Weiss, Keith Berland; Reflection of a polarized light cone. Am. J. Phys. 1 January 2013; 81 (1): 24–27. https://doi.org/10.1119/1.4765079
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