Matrix product state simulations of 2D Rayleigh-Bénard convection recover Nusselt number statistics with 1.8% error and a 9-fold reduction in degrees of freedom at Ra=10^10 using bond dimensions comparable to lower Ra cases.
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In two-dimensional turbulent thermomagnetic convection, an ultimate-like scaling regime with both Nu and Re proportional to Ra_m to the power 1/2 emerges right after the laminar-to-turbulent transition and persists over more than an order of magnitude in Ra_m.
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Quantum-Inspired Simulation of 2D Turbulent Rayleigh-B\'enard Convection
Matrix product state simulations of 2D Rayleigh-Bénard convection recover Nusselt number statistics with 1.8% error and a 9-fold reduction in degrees of freedom at Ra=10^10 using bond dimensions comparable to lower Ra cases.
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Early emergence of ultimate-like transport in two-dimensional turbulent thermomagnetic convection
In two-dimensional turbulent thermomagnetic convection, an ultimate-like scaling regime with both Nu and Re proportional to Ra_m to the power 1/2 emerges right after the laminar-to-turbulent transition and persists over more than an order of magnitude in Ra_m.