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#randommatrices — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #randommatrices, aggregated by home.social.

  1. It is a pleasure to feature Dr. Valentina Ros from the Laboratory of Theoretical Physics and Statistical Models, Orsay, who explores high-dimensional random potentials, inference problems, and associated dynamics, with random matrix theory as a key analytical tool.

    📚 Watch Valentina's Nordita talk and engage in discussions with peers and Dr. Ros herself on Enabla: enabla.com/pub/1169/about

    This is an excellent opportunity to deepen your understanding of high-dimensional systems in statistical physics and inference problems.

    #StatisticalPhysics #RandomMatrices #GlassyDynamics #SpinGlasses

  2. If you're interested in Anderson localization or random quantum circuits, don't miss the opportunity to discuss it with Prof. John Chalker from the University of Oxford, Department of Physics online under his new Enabla lecture here: enabla.com/pub/942/about

    Prof. Chalker's introductory lecture covers topics such as the random matrix theory of Gaussian Wigner-Dyson ensembles, Anderson localisation with one-parameter scaling, and random quantum circuits. The focus is on the spectral form factor, entanglement entropy, and out-of-time-ordered correlators.

    #CondensedMatterPhysics #QuantumPhysics #RandomMatrices #AndersonLocalization #OpenAccess #QuantumCircuits

  3. If you're interested in Anderson localization or random quantum circuits, don't miss the opportunity to discuss it with Prof. John Chalker from the University of Oxford, Department of Physics online under his new Enabla lecture here: enabla.com/pub/942/about

    Prof. Chalker's introductory lecture covers topics such as the random matrix theory of Gaussian Wigner-Dyson ensembles, Anderson localisation with one-parameter scaling, and random quantum circuits. The focus is on the spectral form factor, entanglement entropy, and out-of-time-ordered correlators.

    #CondensedMatterPhysics #QuantumPhysics #RandomMatrices #AndersonLocalization #OpenAccess #QuantumCircuits

  4. If you're interested in Anderson localization or random quantum circuits, don't miss the opportunity to discuss it with Prof. John Chalker from the University of Oxford, Department of Physics online under his new Enabla lecture here: enabla.com/pub/942/about

    Prof. Chalker's introductory lecture covers topics such as the random matrix theory of Gaussian Wigner-Dyson ensembles, Anderson localisation with one-parameter scaling, and random quantum circuits. The focus is on the spectral form factor, entanglement entropy, and out-of-time-ordered correlators.

    #CondensedMatterPhysics #QuantumPhysics #RandomMatrices #AndersonLocalization #OpenAccess #QuantumCircuits

  5. If you're interested in Anderson localization or random quantum circuits, don't miss the opportunity to discuss it with Prof. John Chalker from the University of Oxford, Department of Physics online under his new Enabla lecture here: enabla.com/pub/942/about

    Prof. Chalker's introductory lecture covers topics such as the random matrix theory of Gaussian Wigner-Dyson ensembles, Anderson localisation with one-parameter scaling, and random quantum circuits. The focus is on the spectral form factor, entanglement entropy, and out-of-time-ordered correlators.

    #CondensedMatterPhysics #QuantumPhysics #RandomMatrices #AndersonLocalization #OpenAccess #QuantumCircuits

  6. If you're interested in Anderson localization or random quantum circuits, don't miss the opportunity to discuss it with Prof. John Chalker from the University of Oxford, Department of Physics online under his new Enabla lecture here: enabla.com/pub/942/about

    Prof. Chalker's introductory lecture covers topics such as the random matrix theory of Gaussian Wigner-Dyson ensembles, Anderson localisation with one-parameter scaling, and random quantum circuits. The focus is on the spectral form factor, entanglement entropy, and out-of-time-ordered correlators.

    #CondensedMatterPhysics #QuantumPhysics #RandomMatrices #AndersonLocalization #OpenAccess #QuantumCircuits