Maximal coherence and degree of polarization in linear optical systems

ORAL

Abstract

Coherence properties of light are known to change upon propagation in linear optical systems [1-4]. Here, we study coherence properties of classical light using convenient techniques from Matrix Algebra. We apply those techniques, first, to a set up of a Young's Interference Expriment, finding maximal coherence properties, such as those pertaining to polarization and which-path distinguishibility. Second, we find the maximal polarization obtainable of a partially coherent beam propagating in space [5].

[1] P. H. van Cittert, Physica 1, 201 (1934).
[2] E. Wolf, Introduction to the Theory of Coherence and Polarization of Light (Cambridge University Press, Cambridge, 2007).
[3] E. Wolf, Nature 326, 363 (1987).
[4] D. F. V. James, J. Opt. Soc. Am. A 11, no. 5, 1641 (1994).
[5] A. Al-Qasimi and D. F. V. James, J. Mod. Optics (submitted).

*This work is supported in part by the M. Hildred Blewett Fellowship of the American Physical Society, www.aps.org and by the Natural Sciences and Engineering Research Council of Canada (NSERC).

Presenters

  • Asma Al-Qasimi

    • University of Toronto

Authors

  • Asma Al-Qasimi

    • University of Toronto
  • Daniel FV James

    • University of Toronto