New description of two-level atom states as well as spin-1/2 states by means of standard probability distribution is constructed. It is used as alternative of wave functions and density operators. The quantum suprematism picture of the states in terms of Malevich's squares triada is presented
We study an analog of Bayes’ formula and the nonnegativity property of mutual information for ...
The quantizer–dequantizer formalism is used to construct the probability representation of quantum s...
The quantizer–dequantizer formalism is used to construct the probability representation of quantum s...
Review of tomographic probability representation of quantum states is presented both for oscillator ...
Review of the probability representation of qubit states and observables is presented as well as the...
Review of tomographic probability representation of quantum states is presented both for oscillator ...
A new geometric representation of qubit and qutrit states based on probability simplexes is used to ...
A new geometric representation of qubit and qutrit states based on probability simplexes is used to ...
A new geometric representation of qubit and qutrit states based on probability simplexes is used to ...
The superposition principle of quantum states is expressed as the addition rule of probability distr...
The superposition principle of quantum states is expressed as the addition rule of probability distr...
The superposition principle of quantum states is expressed as the addition rule of probability distr...
The superposition states of two qubits including entangled Bell states are considered in the probabi...
An appropriate operator for the quantum description of the relative phase in the interaction of a th...
An appropriate operator for the quantum description of the relative phase in the interaction of a th...
We study an analog of Bayes’ formula and the nonnegativity property of mutual information for ...
The quantizer–dequantizer formalism is used to construct the probability representation of quantum s...
The quantizer–dequantizer formalism is used to construct the probability representation of quantum s...
Review of tomographic probability representation of quantum states is presented both for oscillator ...
Review of the probability representation of qubit states and observables is presented as well as the...
Review of tomographic probability representation of quantum states is presented both for oscillator ...
A new geometric representation of qubit and qutrit states based on probability simplexes is used to ...
A new geometric representation of qubit and qutrit states based on probability simplexes is used to ...
A new geometric representation of qubit and qutrit states based on probability simplexes is used to ...
The superposition principle of quantum states is expressed as the addition rule of probability distr...
The superposition principle of quantum states is expressed as the addition rule of probability distr...
The superposition principle of quantum states is expressed as the addition rule of probability distr...
The superposition states of two qubits including entangled Bell states are considered in the probabi...
An appropriate operator for the quantum description of the relative phase in the interaction of a th...
An appropriate operator for the quantum description of the relative phase in the interaction of a th...
We study an analog of Bayes’ formula and the nonnegativity property of mutual information for ...
The quantizer–dequantizer formalism is used to construct the probability representation of quantum s...
The quantizer–dequantizer formalism is used to construct the probability representation of quantum s...
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