M
Marshall N. Rosenbluth
Researcher at University of California, San Diego
Publications - 181
Citations - 16354
Marshall N. Rosenbluth is an academic researcher from University of California, San Diego. The author has contributed to research in topics: Plasma & Tokamak. The author has an hindex of 57, co-authored 181 publications receiving 15738 citations. Previous affiliations of Marshall N. Rosenbluth include University of Texas at Austin & International Centre for Theoretical Physics.
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Dissipative universal instability due to trapped electrons in toroidal systems and anomalous diffusion
TL;DR: In this article, a maximum bound on the turbulent transport is estimated, and theoretical predictions compared with experimental results from the Princeton FM•1 spherator, and the theoretical predictions are compared with the experimental results.
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Thermal Equilibrium and Stability of Tokamak Discharges
TL;DR: In this article, stable state temperature and magnetic field profiles are derived in cylindrical geometry, including classical electron ion equilibration, Ohmic heating, and the classical ion thermal transport appropriate to tokamak geometry.
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Runaway current termination in JT-60U
Hiroshi Tamai,R. Yoshino,Shinji Tokuda,G. Kurita,Yuzuru Neyatani,Mohammad Reza Bakhtiari,R.R. Khayrutdinov,V.E. Lukash,Marshall N. Rosenbluth,Jt Team +9 more
TL;DR: In this paper, it was shown that for all discharges with runaway electron generation, the runaway current disappears for qs≥2 with the appearance of spikes in the magnetic fluctuations and the growth rate of the spikes in magnetic fluctuations decreases by an order of magnitude during the termination of runaway current.
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Investigations of the role of nonlinear couplings in structure formation and transport regulation: experiment, simulation, and theory
Christopher Holland,Patrick Diamond,S. Champeaux,Eun Jin Kim,Özgür D. Gürcan,Marshall N. Rosenbluth,George Tynan,N. Crocker,W. M. Nevins,Jeff Candy +9 more
TL;DR: In this article, an integrated program of experimental, computational, and theoretical studies of sheared zonal flows and radially extended convective cells is presented, with the aim of assessing the results of theory-experiment and theory-simulation comparisons.
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Stability of a finite-β inhomogeneous plasma in a sheared magnetic field
TL;DR: In this article, a full electromagnetic treatment was employed to evaluate the effect of finite s corrections on the stability of a plasma immersed in a sheared magnetic field of shear length Ls and having a density gradient of scale length Ln, where ai is the ion gyration radius and k is the wave vector perpendicular to both the direction of the density gradient.