Robert Sprenkle scite author profile

Robert Sprenkle

3Publications

14Citation Statements Received

69Citation Statements Given

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156

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Brigham Young University, Honeywell (United States), Quantum Group (United States)

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Temperature relaxation in strongly-coupled binary ionic mixtures

et al. 2022

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New facilities such as the National Ignition Facility and the Linac Coherent Light Source have pushed the frontiers of high energy-density matter. These facilities offer unprecedented opportunities for exploring extreme states of matter, ranging from cryogenic solid-state systems to hot, dense plasmas, with applications to inertial-confinement fusion and astrophysics. However, significant gaps in our understanding of material properties in these rapidly evolving systems still persist. In particular, non-equilibrium transport properties of strongly-coupled Coulomb systems remain an open question. Here, we study ion-ion temperature relaxation in a binary mixture, exploiting a recently-developed dual-species ultracold neutral plasma. We compare measured relaxation rates with atomistic simulations and a range of popular theories. Our work validates the assumptions and capabilities of the simulations and invalidates theoretical models in this regime. This work illustrates an approach for precision determinations of detailed material properties in Coulomb mixtures across a wide range of conditions.

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Ultracold neutral plasma expansion in a strong uniform magnetic field

et al. 2022

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Relaxation of strongly coupled binary ionic mixtures in the coupled mode regime

Silvestri

Sprenkle

Bergeson

et al. 2021

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Understanding ion transport in plasma mixtures is essential for optimizing the energy balance in high-energy-density systems. In this paper, we focus on one transport property, ion–ion temperature relaxation in a strongly coupled plasma mixture. We review the physics of temperature relaxation and derive a general temperature relaxation equation that includes dynamical correlations. We demonstrate the fidelity of three popular kinetic models that include only static correlations by comparing them to data from molecular dynamics simulations. We verify the simulations by comparing with laboratory data from ultracold neutral plasmas. By comparing our simulations with high fidelity kinetic models, we reveal the importance of dynamical correlations in collisional relaxation processes. These correlations become increasingly significant as the ion mass ratio in a binary mixture approaches unity.

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Robert Sprenkle

Temperature relaxation in strongly-coupled binary ionic mixtures

Ultracold neutral plasma expansion in a strong uniform magnetic field

Relaxation of strongly coupled binary ionic mixtures in the coupled mode regime

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