General analysis and optimization of the four-detector photopolarimeter

Azzam, R. M. A.; Elminyawi, I. M.; El-Saba, Aed M.

doi:10.1364/josaa.5.000681

Cited by 153 publications

(87 citation statements)

References 10 publications

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“…A general calibration technique for four detector polarimeters ("equator-poles method") was described by Azzam et al [18]. Incidentally, the phase dependency measurement shown in Figure 4 was an essential part of this calibration.…”

Section: B Calibrating the Polarimetermentioning

confidence: 99%

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Experimental polarization state tomography using optimal polarimeters

et al. 2006

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We report on the experimental implementation of a polarimeter based on a scheme known to be optimal for obtaining the polarization vector of ensembles of spin-1 2 quantum systems, and the alignment procedure for this polarimeter. We also show how to use this polarimeter to estimate the polarization state for identically prepared ensembles of single photons and photon pairs and extend the method to obtain the density matrix for generic multi-photon states. State reconstruction and performance of the polarimeter is illustrated by actual measurements on identically prepared ensembles of single photons and polarization entangled photon pairs.

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Section: B Calibrating the Polarimetermentioning

confidence: 99%

“…It is the technique that provides the best improvement to our estimated state for each additonal copy taken from the ensemble. Recently Rehácek et al proposed such a method for state estimation of polarization based single qubits [7], which can be viewed as an extension of classical techniques [10,11,18] to quantum systems.…”

Section: Introductionmentioning

confidence: 99%

Experimental polarization state tomography using optimal polarimeters

et al. 2006

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“…The four-detector photopolarimeterl- 3 (FDP) is perhaps the simplest instrument for measuring the state of polarization of a monochromatic or quasi-monochromatic light beam as specified by the four Stokes parameters. 4 It consists of a stationary arrangement of four photodetectors as that produces an output current vector I = [ i i 2 it, which is linearly related by I =AS (1) to the input Stokes vector S = [So Si S 2 S 3 ]t, where the superscript t indicates the transpose.…”

Section: Introductionmentioning

confidence: 99%

Accurate calibration of the four-detector photopolarimeter with imperfect polarizing optical elements

Azzam

Lopez

1989

J. Opt. Soc. Am. A

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The first three columns of the instrument matrix A of the four-detector photopolarimeter (FDP) are determined by Fourier analysis of the output current vector I(P) as a function of the azimuth angle P of the incident linearly polarized light. Therefore 12 of the 16 elements of A are measured free of the imperfections of the (absent) quarterwave retarder (QWR). The effect of angular beam deviation by the polarizer is compensated for by taking the average, (1/2) [I(P) + I(P + 1800)], of the FDP output at 1800-apart, optically equivalent, angular positions of the polarizer. The remaining fourth column of A is determined by the FDP's response to the right-and left-handed circular polarization states. Because these states are impossible to generate with an imperfect QWR, a novel procedure is developed. In particular, the response of the FDP to the unattainable right-or left-handed circular polarization state is found by taking the average of the responses of the FDP to an elliptical near-circular state and that state rotated in azimuth by 900. This calibration scheme is applied to measure A of our prototype FDP of four Si detectors at X = 632.8 nm. A is determined, in external and internal reference frames, free of imperfections in the polarizing optical elements. The FDP, with its uncontaminated A matrix, is used subsequently to evaluate the imperfections of the QWR with the help of an appropriate model.

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“…A geometrical interpretation relating the stability of W to the trajectory on the Poincaré sphere was first proposed by Azzam et al [133] and later extended by Ambirajan and Look [134,135], Sabatke et al [136], and Tyo [139]. retardance [136].…”

Section: 6: Geometrical Interpretationmentioning

confidence: 99%

GDx-MM: An Imaging Mueller Matrix Retinal Polarimeter

Twietmeyer

2007

Frontiers in Optics 2007/Laser Science XXIII/Organic Materials and Devices for Displays and Energy Conversion

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General analysis and optimization of the four-detector photopolarimeter

Cited by 153 publications

References 10 publications

Experimental polarization state tomography using optimal polarimeters

Experimental polarization state tomography using optimal polarimeters

Accurate calibration of the four-detector photopolarimeter with imperfect polarizing optical elements

GDx-MM: An Imaging Mueller Matrix Retinal Polarimeter

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