- Jones calculus
In
optics one can describepolarization using the Jones calculus, invented byR. C. Jones in1941 . Polarized light is represented by a "Jones vector", and linear optical elements are represented by "Jones matrices". When light crosses an optical element the resulting polarization of the emerging light is found by taking the product of the Jones matrix of the optical element and the Jones vector of the incident light.The Jones vector for polarized light is defined by , where and are the x and y components of the electric field of the light wave. It is common to normalize Jones vectors such that the sum of the squares of their components is 1. This discards the amplitude information needed for absorption calculations, but simplifies analysis in other cases. It is also common to constrain the first component of the Jones vectors to be a
real number . This discards the phase information needed for calculation ofinterference with other beams.The following table gives examples of normalized Jones vectors. ( is the
imaginary unit , .)The following table gives examples of Jones matrices.
If an optical element is rotated about the optical axis by angle "θ", the Jones matrix for the rotated element, M("θ"), is constructed from the matrix for the unrotated element, M, by the transformation: , : where .
Note that Jones calculus is only applicable to light that is already fully polarized. Light which is unpolarized, partially polarized, or incoherent must be treated using
Mueller calculus .ee also
*
Mueller calculus
*Stokes parameters
*Polarization References
* E. Collett, "Field Guide to Polarization", SPIE Field Guides vol. FG05, SPIE (2005). ISBN 0-8194-5868-6.
* E. Hecht, "Optics", 2nd ed., Addison-Wesley (1987). ISBN 0-201-11609-X.
* R. C. Jones, "New calculus for the treatment of optical systems," J. Opt. Soc. Am. 31, 488–493, (1941).
* Frank L. Pedrotti, S.J. Leno S. Pedrotti, "Introduction to Optics", 2nd ed., Prentice Hall (1993). ISBN 0-13-501545-6
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