1997 - US President's National Medal of Science "For his fundamental contributions to plasma physics, his pioneering work in computational statistical mechanics, his world leadership in the development of controlled thermonuclear fusion, and his wide-ranging technical contributions to national security.", Presented by President Bill Clinton at a ceremony in Room 450, Old Executive Office Building, on Tuesday, December 16, 1997.
1969 - Member of the National Academy of Sciences
1959 - Fellow of American Physical Society (APS)
Adhesion, Elastic modulus, Modulus and Shear (geology) are all intertwined in Composite material research. Adhesion is often connected to Composite material in his work. His Chemical engineering study frequently draws connections to other fields, such as X-ray photoelectron spectroscopy. His research brings together the fields of Chemical engineering and X-ray photoelectron spectroscopy. Cytokine and In vitro are two areas of study in which Marshall N. Rosenbluth engages in interdisciplinary work. Many of his studies involve connections with topics such as Macrophage and In vitro. In his research, Marshall N. Rosenbluth undertakes multidisciplinary study on Macrophage and Tumor necrosis factor alpha. His research links Immunology with Tumor necrosis factor alpha. He integrates Immunology with Cytokine in his research.
Marshall N. Rosenbluth links adjacent fields of study such as Viscosity, Modulus, Adhesion, Elastic modulus and Shear (geology) in the subject of Composite material. His research on Adhesion often connects related areas such as Composite material. He is involved in relevant fields of research such as Curvature and Perpendicular in the field of Geometry. While working in this field, he studies both Curvature and Geometry. You can notice a mix of various disciplines of study, such as Internet privacy and Login, in his Computer security studies. He performs integrative Internet privacy and Computer security research in his work. In his works, he performs multidisciplinary study on Nuclear physics and Nuclear engineering. In his articles, he combines various disciplines, including Nuclear engineering and Nuclear physics. His work blends Atomic physics and Neutron studies together.
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Finite‐Resistivity Instabilities of a Sheet Pinch
Harold P. Furth;John Killeen;Marshall N. Rosenbluth.
Physics of Fluids (1963)
Electron heat transport in a tokamak with destroyed magnetic surfaces
A. B. Rechester;M. N. Rosenbluth.
Physical Review Letters (1978)
Parametric Instabilities of Electromagnetic Waves in Plasmas
J. F. Drake;P. K. Kaw;Y. C. Lee;G. Schmid.
Physics of Fluids (1974)
Poloidal Flow Driven by Ion-Temperature-Gradient Turbulence in Tokamaks
M. N. Rosenbluth;F. L. Hinton.
Physical Review Letters (1998)
Parametric Instabilities in Inhomogeneous Media
Marshall N. Rosenbluth.
Physical Review Letters (1972)
Limitations on subdiffraction imaging with a negative refractive index slab
David R. Smith;David Schurig;Marshall Rosenbluth;Sheldon Schultz.
Applied Physics Letters (2003)
Excitation of internal kink modes by trapped energetic beam ions
Liu Chen;R. B. White;M. N. Rosenbluth.
Physical Review Letters (1984)
Anomalous Diffusion Arising from Microinstabilities in a Plasma
William E. Drummond;Marshall N. Rosenbluth.
Physics of Fluids (1962)
Beta limits in long-pulse tokamak discharges
O. Sauter;R. J. LaHaye;Z. Chang;D. A. Gates.
Physics of Plasmas (1997)
Plasma Transport in Toroidal Confinement Systems
M. N. Rosenbluth;Richard D Hazeltine;F. L. Hinton.
Physics of Fluids (1972)
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