Add to ORKGThe degree of polarization of a quantum state can be defined as its Hilbert-Schmidt distance to the set of unpolarized states. We demonstrate that the states optimizing this degree for a fixed average number of photons $\bar{N}$ present a fairly symmetric, parabolic photon statistics, with a variance scaling as $\bar{N}^2$. Although no standard optical process yields such a statistics, we show that, to an excellent approximation, a highly squeezed vacuum can be considered as maximally polarized
We introduce a probability distribution for polarization of three-dimensional quantum light fields a...
We demonstrate experimental excitation-manifold-resolved polarization characterization of quantum st...
The characterization of the polarization properties of a quantum state requires the knowledge of the...
The degree of polarization of a quantum field can be defined as its distance to an appropriate set o...
Quantum optics entails polarization properties that cannot be fully described by the classical Stoke...
The characterization of quantum polarization of light requires knowledge of all the moments of the S...
We address a quantitative determination of the degree of polarization of type-II unpolarized light v...
We compare the maximum achievable polarization correlations for classical-like separable states and ...
It is well established that unpolarized light is invariant with respect to any SU(2) polarization tr...
We study the polarization properties of three-dimensional quantum light fields by using the Stokes o...
Unpolarized light is invariant with respect to any SU(2) polarization transformation. Since this ful...
We examine whether the Stokes parameters of a two-mode electromagnetic field results from the superp...
We study nonclassical polarization states characterized by polarization distributions taking negativ...
The characterization of the polarization properties of a quantum state requires the knowledge of the...
The characterization of the polarization properties of a quantum state requires the knowledge of the...
We introduce a probability distribution for polarization of three-dimensional quantum light fields a...
We demonstrate experimental excitation-manifold-resolved polarization characterization of quantum st...
The characterization of the polarization properties of a quantum state requires the knowledge of the...
The degree of polarization of a quantum field can be defined as its distance to an appropriate set o...
Quantum optics entails polarization properties that cannot be fully described by the classical Stoke...
The characterization of quantum polarization of light requires knowledge of all the moments of the S...
We address a quantitative determination of the degree of polarization of type-II unpolarized light v...
We compare the maximum achievable polarization correlations for classical-like separable states and ...
It is well established that unpolarized light is invariant with respect to any SU(2) polarization tr...
We study the polarization properties of three-dimensional quantum light fields by using the Stokes o...
Unpolarized light is invariant with respect to any SU(2) polarization transformation. Since this ful...
We examine whether the Stokes parameters of a two-mode electromagnetic field results from the superp...
We study nonclassical polarization states characterized by polarization distributions taking negativ...
The characterization of the polarization properties of a quantum state requires the knowledge of the...
The characterization of the polarization properties of a quantum state requires the knowledge of the...
We introduce a probability distribution for polarization of three-dimensional quantum light fields a...
We demonstrate experimental excitation-manifold-resolved polarization characterization of quantum st...
The characterization of the polarization properties of a quantum state requires the knowledge of the...