Zobrazeno 1 - 10 of 6 443 pro vyhledávání: '"HOWARD, N."'
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Akademický článek
Social distancing enhanced automated optimal design of physical spaces in the wake of the COVID-19 pandemic
Autor: Ugail, Hassan, Aggarwal, R., Iglesias, A., Howard, N., Campuzano, A., Suarez, P., Maqsood, M., Aadil, F., Mehmood, Irfan, Gleghorn, S., Taif, K., Kadry, S., Muhammad, K.
As the COVID-19 pandemic unfolds, manually enhanced ad-hoc solutions have helped the physical space designers and decision makers to cope with the dynamic nature of space planning. Due to the unpredictable nature by which the pandemic is unfolding, t
Externí odkaz: http://hdl.handle.net/10454/18945
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2
Report
Prediction of Performance and Turbulence in ITER Burning Plasmas via Nonlinear Gyrokinetic Profile Prediction
Autor: Howard, N. T., Rodriguez-Fernandez, P., Holland, C., Candy, J.
Burning plasma performance, transport, and the effect of hydrogen isotope on confinement has been predicted for ITER baseline scenario (IBS) conditions using nonlinear gyrokinetic profile predictions. Accelerated by surrogate modeling [P. Rodriguez-F
Externí odkaz: http://arxiv.org/abs/2404.17040
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3
Report
Core performance predictions in projected SPARC first-campaign plasmas with nonlinear CGYRO
Autor: Rodriguez-Fernandez, P., Howard, N. T., Saltzman, A., Shoji, L., Body, T., Battaglia, D. J., Hughes, J. W., Candy, J., Staebler, G. M., Creely, A. J.
This work characterizes the core transport physics of SPARC early-campaign plasmas using the PORTALS-CGYRO framework. Empirical modeling of SPARC plasmas with L-mode confinement indicates an ample window of breakeven (Q>1) without the need of H-mode
Externí odkaz: http://arxiv.org/abs/2403.15633
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5
Report
Enhancing predictive capabilities in fusion burning plasmas through surrogate-based optimization in core transport solvers
Autor: Rodriguez-Fernandez, P., Howard, N. T., Saltzman, A., Kantamneni, S., Candy, J., Holland, C., Balandat, M., Ament, S., White, A. E.
This work presents the PORTALS framework, which leverages surrogate modeling and optimization techniques to enable the prediction of core plasma profiles and performance with nonlinear gyrokinetic simulations at significantly reduced cost, with no lo
Externí odkaz: http://arxiv.org/abs/2312.12610
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9
Report
Predictions of improved confinement in SPARC via energetic particle turbulence stabilization
Autor: Di Siena, A., Rodriguez-Fernandez, P., Howard, N. T., Navarro, A. Banon, Bilato, R., Goerler, T., Poli, 1 E., Merlo, G., Wrigh, J., Greenwald, M., Jenko, F.
The recent progress in high-temperature superconductor technologies has led to the design and construction of SPARC, a compact tokamak device expected to reach plasma breakeven with up to $25$MW of external ion cyclotron resonant heating (ICRH) power
Externí odkaz: http://arxiv.org/abs/2210.11816
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