Hidden Correlations and Entanglement in Single-Qudit States†
Probability Representation of Quantum Observables and Quantum States
Triangle Geometry for Qutrit States in the Probability Representation
Continuous Sets of Dequantizers and Quantizers for One-Qubit States*
Dissipative Evolution of the Qubit State in the Tomographic-Probability Representation
Discretization of the Density Matrix as a Nonlinear Positive Map and Entanglement
Entropic Inequalities for Two Coupled Superconducting Circuits
Weighted Information and Weighted Entropic Inequalities for Qutrit States
Subadditivity and Strong Subadditivity Conditions for the Density Matrix of the Five-Level Atom
Testing Entropic Inequalities for Superconducting Qudits
Unitary Transform and Subadditivity Condition for Composite and Noncomposite Systems
Separability and Entanglement of a Spin-1 Particle
Maps of Matrices and Portrait Maps of the Density Operators of Composite and Noncomposite Systems
Information Processing Using Three-Qubit and Qubit–Qutrit Encodings of Noncomposite Quantum Systems
Inequalities for Purity Parameters of Multiqudit and Single-Qudit States
Steering and Correlations for a Single Qudit State on the Example of Spin j =3/2
Pauli Equation for a Joint Tomographic Probability Distribution