Statistical properties of phase-shift algorithms

C. Rathjen

doi:10.1364/JOSAA.12.001997

Journal of the Optical Society of America A
Vol. 12,
Issue 9,
pp. 1997-2008
(1995)
•https://doi.org/10.1364/JOSAA.12.001997

Statistical properties of phase-shift algorithms

C. Rathjen

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C. Rathjen, "Statistical properties of phase-shift algorithms," J. Opt. Soc. Am. A 12, 1997-2008 (1995)

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Abstract

Statistical properties of phase-shift algorithms are investigated for the case of additive Gaussian intensity noise. Based on a bivariate normal distribution, a generally valid probability-density function for the random phase error is derived. This new description of the random phase error shows properties that cannot be obtained through Gaussian error propagation. The assumption of a normally distributed phase error is compared with the derived probability-density function. For small signal-to-noise ratios the assumption of a normally distributed phase error is not valid. Additionally, it is shown that some advanced systematic-error-compensating algorithms have a disadvantageous effect on the random phase error.

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Algorithm: tan(·) =	Ref.	α	ρ	Feature^a
$\frac{- (3 I_{2} - I_{1} - I_{3} - I_{4})}{I_{1} + I_{2} + I_{4} - 3 I_{3}}$ [adapted to Eq. (2)]	10	1	1/3	1
$\frac{I_{3} - I_{2}}{I_{1} - I_{2}}$	5	1	1/2	4
$\frac{\sqrt{3} (I_{2} + I_{3} - I_{5} - I_{6})}{- I_{1} - I_{2} + I_{3} + 2 I_{4} + I_{5} - I_{6} - I_{7}}$	16	$\sqrt{6} / \sqrt{5}$	0	3
$\frac{\sqrt{3} (I_{2} + I_{3} - I_{5} - I_{6}) + (I_{7} - I_{1}) / \sqrt{3}}{- I_{1} - I_{2} + I_{3} + 2 I_{4} + I_{5} - I_{6} - I_{7}}$	16	$\sqrt{19} / \sqrt{15}$	0	1–3
$\frac{2 (I_{2} - I_{4})}{2 I_{3} - I_{1} - I_{5}}$	14, 18	$2 / \sqrt{3}$	0	1, 2
$\frac{- 2 (I_{2} - I_{3})}{I_{1} - I_{2} - I_{3} + I_{4}}$ [adapted to Eq. (2)]	10	$\sqrt{2}$	0	1
$\frac{I_{1} - 2 I_{2} + I_{3}}{I_{1} - I_{3}}$	6	$\sqrt{3}$	0	4
$\frac{{[3 (I_{2} - I_{3}) - (I_{1} - I_{4})] [(I_{2} - I_{3}) + (I_{1} - I_{4})]}^{1 / 2}}{(I_{2} - I_{3}) - (I_{1} + I_{4})}$	5, 31	$\frac{{[4 {cos}^{4} (ψ / 2) + 1]}^{1 / 2}}{sin ψ} (SNR ≫ 1)$	Difficult to compute	1

Statistical properties of phase-shift algorithms

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Journal of the Optical Society of America A