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The name of Joseph Fourier is also inseparable from the study of the mathematics of heat. Modern research on heat equations explores the extension of the classical diffusion equation on Riemannian, sub-Riemannian manifolds, and Lie groups. In parallel, in geometric mechanics, Jean-Marie Souriau interpreted the temperature vector of Planck as a space-time vector, obtaining, in this way, a phenomenological model of continuous media, which presents some interesting properties.

entanglement indicators --- generalized uncertainty principle --- Tsallis entropy --- linear entropy --- quantum-classical relationship --- Wigner–Yanase–Dyson skew information --- deep learning --- spinors in quantum and classical physics --- quantum mechanics --- entropy --- original Bell inequality --- Bohmian dynamics --- qudit states --- square integrable --- uncertainty relation --- quantum bound --- uncertainty relations --- foundations of quantum mechanics --- Born probability rule --- Rényi entropy --- energy quantization --- quantum foundations --- Born rule --- measure of classicality --- minimal observable length --- quantum information --- Kochen–Specker theorem --- neuromorphic computing --- bell inequalities --- successive measurements --- Gleason theorem --- continuous variables --- quantum memory --- perfect correlation/anticorrelation --- quantum trajectory --- quantum computing --- high performance computing --- Quantum Hamilton-Jacobi Formalism --- quantum uncertainty

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

The name of Joseph Fourier is also inseparable from the study of the mathematics of heat. Modern research on heat equations explores the extension of the classical diffusion equation on Riemannian, sub-Riemannian manifolds, and Lie groups. In parallel, in geometric mechanics, Jean-Marie Souriau interpreted the temperature vector of Planck as a space-time vector, obtaining, in this way, a phenomenological model of continuous media, which presents some interesting properties.

entanglement indicators --- generalized uncertainty principle --- Tsallis entropy --- linear entropy --- quantum-classical relationship --- Wigner–Yanase–Dyson skew information --- deep learning --- spinors in quantum and classical physics --- quantum mechanics --- entropy --- original Bell inequality --- Bohmian dynamics --- qudit states --- square integrable --- uncertainty relation --- quantum bound --- uncertainty relations --- foundations of quantum mechanics --- Born probability rule --- Rényi entropy --- energy quantization --- quantum foundations --- Born rule --- measure of classicality --- minimal observable length --- quantum information --- Kochen–Specker theorem --- neuromorphic computing --- bell inequalities --- successive measurements --- Gleason theorem --- continuous variables --- quantum memory --- perfect correlation/anticorrelation --- quantum trajectory --- quantum computing --- high performance computing --- Quantum Hamilton-Jacobi Formalism --- quantum uncertainty --- entanglement indicators --- generalized uncertainty principle --- Tsallis entropy --- linear entropy --- quantum-classical relationship --- Wigner–Yanase–Dyson skew information --- deep learning --- spinors in quantum and classical physics --- quantum mechanics --- entropy --- original Bell inequality --- Bohmian dynamics --- qudit states --- square integrable --- uncertainty relation --- quantum bound --- uncertainty relations --- foundations of quantum mechanics --- Born probability rule --- Rényi entropy --- energy quantization --- quantum foundations --- Born rule --- measure of classicality --- minimal observable length --- quantum information --- Kochen–Specker theorem --- neuromorphic computing --- bell inequalities --- successive measurements --- Gleason theorem --- continuous variables --- quantum memory --- perfect correlation/anticorrelation --- quantum trajectory --- quantum computing --- high performance computing --- Quantum Hamilton-Jacobi Formalism --- quantum uncertainty