The Stokes Parameters and Mueller Matrices for Optical Activity and Faraday Rotation

ABSTRACTIt is shown that the phenomena of double refraction—optical activity, Faraday rotation, Kerr effect, etc.—may be treated as scattering problems in quantum field theory. An expression for the scattering cross-section of an atom or molecule for photons may be easily obtained and from this expression using the idea of Stokes operators, equating their expectation values to the classical Stokes parameters, the usual quantum mechanical expressions for optical activity, etc. may be obtained. This approach does not require the ideas of refractive index or polarization of the medium, and emphasizes what are the actual observables in these experiments.

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Comparison of Optical Activity and Faraday Rotation in Crystalline Si02

physica status solidi (b) ◽

10.1002/pssb.2221360231 ◽

1986 ◽

Vol 136 (2) ◽

pp. 651-659 ◽

Cited By ~ 6

Author(s):

P. van den Keybus ◽

W. Grevendonk

Keyword(s):

Optical Activity ◽

Faraday Rotation

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Visualization of Faraday rotation and optical activity at oblique incidence

IEEE Antennas and Propagation Magazine ◽

10.1109/map.2005.1599163 ◽

2005 ◽

Vol 47 (5) ◽

pp. 23-33 ◽

Cited By ~ 6

Author(s):

T.M. Grzegorczyk ◽

Jin Au Kong

Keyword(s):

Optical Activity ◽

Faraday Rotation ◽

Oblique Incidence

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The NFRA Pulsar Machine PuMA

Symposium - International Astronomical Union ◽

10.1017/s0074180900169402 ◽

2002 ◽

Vol 199 ◽

pp. 383-386

Author(s):

Richard G. Strom

Keyword(s):

Faraday Rotation ◽

Time Resolution ◽

Faraday Effect ◽

Low Frequency ◽

Wide Band ◽

Stokes Parameters ◽

Frequency Range ◽

Search Mode ◽

Frequency Bands

The Westerbork Telescope has good low-frequency capability, with receivers covering much of the frequency range from 250 to 1800 MHz. For pulsar observations the array elements can be coherently summed to provide the equivalent of a 93 m aperture. To exploit this potential, a new backend, PuMa, has recently been commissioned. It can be configured in various ways, with up to 4096 frequency channels per band, a total bandwidth of 80 MHz, and time resolution of 50 nanoseconds. PuMa can be used in search mode, recording just two polarization channels, or for observations of known pulsars, determining all four Stokes parameters and correcting for dispersion and Faraday rotation. In many of the low-frequency bands (especially 300 — 380 and 800 — 900 MHz) interference-free observing is possible much of the time, enabling wide-band studies of ISS, refraction and the Faraday effect.

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