Mueller matrix algorithms

@inproceedings{Chenault1992MuellerMA,
  title={Mueller matrix algorithms},
  author={David B. Chenault and Joseph L. Pezzaniti and Russell A. Chipman},
  booktitle={Optics \& Photonics},
  year={1992},
  url={https://api.semanticscholar.org/CorpusID:123207298}
}
A method for the correction of systematic errors generated by large orientational and retardance errors in the polarization optics in the dual rotating retarder polarimeter is presented. Small orientational and retardance errors (<1 degree(s)) can lead to large errors in the measured Mueller matrix (> 10% in some matrix elements). We incorporate correction terms for large orientation and retardance errors into the dual rotating retarder data reduction algorithm. Using these data reduction… 
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106 Citations
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106 Citations

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Error Analysis and Calibration Improvement of the Imaging Section in a Mueller Matrix Microscope

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Error analysis and compensation for a discrete dual rotating retarder Mueller matrix polarimeter.

The study developed in this work allows us to generate a polarimeter with an error margin of 0.2%, almost an order of magnitude below recently reported values.

Dual-rotator mueller matrix polarimeter for high-accuracy and high-precision measurements of glucose concentration

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Optimization of a dual-rotating-retarder Mueller matrix polarimeter.

An optimization of the dual-rotating-retarder configuration of the Mueller matrix polarimeter by minimizing the condition number of the system data reduction matrix finds the optimum retardance for the rotating retarders to be 127 degrees.

A new approach to Mueller matrix reconstruction of skin cancer lesions using a dual rotating retarder polarimeter

The reconstruction of the Mueller matrix can be done with higher accuracy using singular value decomposition of the data reduction equation and is suggested that a vast range of retardations for the retarders of a DRR obtaining identical results.

Optimization of a dual-rotating-retarder polarimeter as applied to a tunable infrared Mueller-matrix scatterometer

The value of Mueller-matrix (Mm) scatterometers lies in their ability to simultaneously characterize the polarimetric and directional scatter properties of a sample. To extend their utility to

Optimizing a dual-rotating-retarder Mueller matrix polarimeter

An optimization of a dual-rotating-retarder Mueller matrix polarimeter is performed by minimizing the condition number of the system data reduction matrix. The optimum retardance for the rotating

Error analysis of the calibration of a dual-rotating-retarder Mueller matrix polarimeter.

To improve the calibration, the mathematical model of the calibration process is examined using previous studies, and a calibration algorithm with reduced error magnification is derived, which improves calibration accuracy, and provides more robust results.
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2 References

Mueller matrix ellipsometry with imperfect compensators

We describe the use of an ellipsometer having the configuration PCSC’A to determine the Mueller matrix of a linear optical system S, using imperfect compensators C and C′ and linear polarizer P and

Infrared linear diattenuation and birefringence spectra of ferroelectric liquid crystals.

Linear diattenuation and linear birefringence spectra of three ferroelectric liquid-crystalline materials, 764E, SCE4, and SCE9, are presented and display the expected anomalous dispersion near the absorption bands.