In this paper, we propose a criterion for bounding the relative errors associated with the determination of the Stokes vector that describes the state of polarization of a light beam. No assumptions about the magnitude, origin, or statistical behavior of the errors are made. It is shown that figures of merit such as the condition number and the equally weighted variance naturally arise as optimization parameters. Moreover, a third optimization parameter emerges, which takes into account errors associated with the matrix that represents the selected configuration of analyzers. Finally, a new and more general figure of merit is derived from this analysis and is applied in an optimization process of a very well known polarimeter.Fil: Chironi, ...
We present a comprehensive analysis, optimization and implementation of a Stokes ...
Snapshot imaging polarimeters are used in many different areas. Recently, division of focal plane (D...
Due to the increasing interest of polarimetric information in numerous applications, different Stoke...
In this paper we present the analysis, optimization and implementation of several Stokes polarimete...
Optimization of polarimeters has historically been achieved using an assortment of performance metri...
An optimization technique is demonstrated to correct for inherent errors in near-field polarimetry. ...
We present a comprehensive analysis, optimization and implementation of a Stokes polarimeter based o...
International audienceIn this study errors of the relative orientations of polarizers in the Cimel p...
Recently, we introduced the basic concepts behind a new polarimeter device based on conical refracti...
An accurate sky polarization field map is a prerequisite for polarization navigation applications. I...
A figure of merit for optimization of a complete Stokes polarimeter based on its measurement matrix ...
We present configurations of polarimeters which measure the three Stokes parameters I, Q and U of th...
We present configurations of polarimeters which measure the three Stokes parameters I, Q and U of th...
Performance bounds (Cramer-Rao bounds on root-mean-square errors) are computed for the estimation of...
The authors present two figures of merit based on singular value decomposition which can be used to ...
We present a comprehensive analysis, optimization and implementation of a Stokes ...
Snapshot imaging polarimeters are used in many different areas. Recently, division of focal plane (D...
Due to the increasing interest of polarimetric information in numerous applications, different Stoke...
In this paper we present the analysis, optimization and implementation of several Stokes polarimete...
Optimization of polarimeters has historically been achieved using an assortment of performance metri...
An optimization technique is demonstrated to correct for inherent errors in near-field polarimetry. ...
We present a comprehensive analysis, optimization and implementation of a Stokes polarimeter based o...
International audienceIn this study errors of the relative orientations of polarizers in the Cimel p...
Recently, we introduced the basic concepts behind a new polarimeter device based on conical refracti...
An accurate sky polarization field map is a prerequisite for polarization navigation applications. I...
A figure of merit for optimization of a complete Stokes polarimeter based on its measurement matrix ...
We present configurations of polarimeters which measure the three Stokes parameters I, Q and U of th...
We present configurations of polarimeters which measure the three Stokes parameters I, Q and U of th...
Performance bounds (Cramer-Rao bounds on root-mean-square errors) are computed for the estimation of...
The authors present two figures of merit based on singular value decomposition which can be used to ...
We present a comprehensive analysis, optimization and implementation of a Stokes ...
Snapshot imaging polarimeters are used in many different areas. Recently, division of focal plane (D...
Due to the increasing interest of polarimetric information in numerous applications, different Stoke...