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Home > People > Faculty > David C. Montgomery

David C. Montgomery

Eleanor and A. Kelvin Smith Professor of Physics, Emeritus, Department of Physics and Astronomy

Education

  • Ph.D.(1959) Princeton University
  • B.S. Wisconsin (1956); M.A. Princeton University (1958)

Previous Employment

Princeton University, Project Matterhorn (1959-60), University of Wisconsin (1961-62), University of Maryland (1962-65), University of Iowa (1965-1977), College of William and Mary (1977-1984). Visiting appointments at: University of Utrecht (Netherlands), Culham Laboratory (U.K.), University of Colorado, Oak Ridge National Laboratory, University of Alaska, Los Alamos National Laboratory, University of California (Berkeley), Bell Laboratories, University of Wisconsin, Hunter College (CUNY), National Center for Atmospheric Research, University of Maryland, University of Nagoya (Japan), Columbia University, J.E.T.(U.K.), Technical University of Eindhoven (Netherlands), Rijnhuizen Laboratory (Netherlands), Heinrich-Heine Universität (Düsseldorf, Germany), Ris&#248 National Laboratory, Roskilde, Denmark. Consulted at: NASA Goddard Space Flight Center, NASA Headquarters, Oak Ridge National Laboratory, Los Alamos National Laboratory.


Courses Taught at Dartmouth - Graduate and Undergraduate

Fluid dynamics, plasma physics, magnetohydrodynamics, classical mechanics, electromagnetic theory, statistical mechanics, mathematical methods, introductory physics, special topics (turbulence)


Memberships

Contact Information

Research Interests

Fluid and magnetofluid turbulence, statistical mechanics of turbulent continua, magnetohydrodynamic confinement and stability of fusion plamsas, nonlinear computation of fluid and magnetofluid effects, inertial confinement fusion, plasma kinetic theory, solar wind phenomena

My colleagues and I have in recent years been concerned with trying to understand the quantitative behavior of fluids, particularly electrically conducting fluids in the presence of dc magnetic fields and applied electric fields. Numerical computation of nonlinear behavior out of the range of linear analytical mathematics has been used to try to confirm statistical theories of turbulent relaxation to spatially non-uniform states. Two-dimensional and quasi-two-dimensional phenomena in magnetohydrodyanmics and fluid mechanics have been of interest. (Rotating neutral fluids are of particularly recent interest.) It has been attempted to bring classical perspectives from Navier-Stokes hydrodynamics to bear on electrically conducting fluids and plasmas.

Selected Recent Publications

"Intrinsic Rotation of Toroidally Confined Magnetohydrodynamics" Jorge A. Morales, Wouter J.T. Bos, Kai Schneider, and David C. Montgomery Physical Review Letters 109, 175002 (2012).
W.H.Matthaeus, D.C. Montgomery, M. Wang, and S. Servidio "A review of relaxation and structure in some turbulent plasmas: magnetohydrodynamics and related models" Journal of Turbulence 13:1, N37 (2012), pp.1-36.
David C. Montgomery, The Enigma of the Aerofoil: Rival Theories in Aerodynamics, 1909-1930, by David Bloor [University of Chicago Press, Chicago, IL, 2011] 547 pp. (a book review). Am. J. Phys. 80, 649 (2012)
D.C. Montgomery and W.H. Matthaeus "Oseen vortex as a maximum entropy state of a two-dimensional fluid" Physics of Fluids 23, 075104 (6 pp), (2011)
D. J. Rodgers, W. H. Matthaeus, T. B. Mitchell, and D. C. Montgomery "Similarity Decay of Enstrophy in an Electron Fluid", Phys. Rev. PRL 105, 234501 (2010).
D.C. Montgomery "Worlds of Flow: A History of Hydrodynamics from the Bernoullis to Prandtl," by Olivier Darrigol (book review), Am. J. Phys. 77, 767-768 (2009).
D. J. Rodgers,1 S. Servidio, W. H. Matthaeus,1 D. C. Montgomery, T. B. Mitchell, and T. Aziz, "Hydrodynamic Relaxation of an Electron Plasma to a Near-Maximum Entropy State" Phys. Rev. PRL 102, 244501 (2009).
P.D. Mininni, D.C. Montgomery, and L.Turner "Hydrodynamic and magnetohydrodynamic computations inside a rotating sphere" New J. Phys. 9, 303(25 pages), 2007.
D.C. Montgomery "Can a physical scientist contribute significantly to the cause of peace?" Proc. Int. Conf. on Science, Technology and Peace: Conversion and Transformation ed. by Peter Schmid and Piet Schram, ISBN 978-90-810647-4-3 Eindhoven Unniversity of Technology TU/e, The Netherlands, 2006.
D.C. Montgomery Paul M. Bellan (2006): Fundamentals of Plasma Physics (book review) Theor. Comput. Fluid Dyn. 21, 79-80 (2006).
P.D. Mininni and D.C. Montgomery "Magnetohydrodynamic activity inside a sphere" Physics of Fluids 18, 116602 (13 pages), (2006).
David C. Montgomery "Some Remarks on Decaying Two-Dimensional Turbulence" chapter in "Mathematical and Physical Theory of Turbulence," ed. by J. Cannon and B. Shivamoggi Boca Raton: Chapman and Hall/CRC, 2006; pp. 91-100.
P.D. Mininni, A.G. Pouquet, and D.C. Montgomery"Small-scale structures in three-dimensional magneto- hydrodynamic turbulence" Physical Review Letters 97, 244503 (2006).
Pablo D. Mininni and David C. Montgomery "Low magnetic Prandtl number dynamos with helical forcing" Physical Review E 72, 056320 (9 pages) (2005).
Pablo D. Mininni, Yannick Ponty, David C. Montgomery, Jean-Francois Pinton, Helene Politano, and Annick Pouquet "Dynamo Regimes with a Nonhelical Forcing" Astrophysical Journal 626, 853-863 (2005).
Y. Ponty, P.D. Mininni, D.C.Montgomery, J.-F. Pinton, H.Politano, and A. Pouquet, "Numerical Study of Dynamo Action at Low Magnetic Prandtl Numbers" Physical Review Letters 94, 164502 (2005) (4 pages).
Pablo D. Mininni, David C. Montgomery, and Annick Pouquet "Numerical solutions of the three-dimensional magnetohydrodynamic alpha model" Physical Review E 71, 046304 (2005) (11 pages).
David Montgomery "Elegante tour-de-force" (book review)
Nederlands Tijdschrift voor Natuurkunde 71, 186-187 (2005).
Pablo D. Mininni, David C. Montgomery, and Annick G. Pouquet "A numerical study of the alpha model for two-dimensional magnetohydrodynamic turbulent flows" Physics of Fluids 17, 035112 (2005) (17 pages)
Pablo Dmitruk and David C. Montgomery Numerical study of the decay of enstrophy in a two-dimensional Navier-Stokes fluid in the limit of very small viscosities." Physics of Fluids 17, 035114 (2005) (5 pages).
Leon P.J. Kamp and David C. Montgomery "Toroidal Steady States in Visco-resistive magnetohydrodynamics" Journal of Plasma Physics 70, 113-142 (2004).
David C. Montgomery "Magnetohydrodynamic Turbulence" (Book Review) Eos 85, No. 2, p.20 (2004).
David C. Montgomery "Marketing Science, Marketing Ourselves" Academe 89, No. 5 (Sept.-Oct. 2003)[online: http://www.jstor.org/stable/40253386 ]
Z. Yin, H.J.H.Clercx, and D.C. Montgomery "An easily implemented task-based parallel scheme for the Fourier pseudospectral solver applied to 2D Navier-Stokes turbulence"
Computers and Fluids 33, 509-520 (2004).
Z. Yin, D.C. Montgomery, and H.J.H. Clercx "Alternative statistical-mechanical descriptions of decaying two-dimensional turbulence in terms of 'patches' and 'points'"
Physics of Fluids 15, 1937-1953 (2003).
L.P. Kamp and D.C. Montgomery, "Toroidal flows in resistive magnetohydrodynamic steady states," Physics of Plasmas 10, 157-167 (2003).
Antonio Ponno, Luigi Galgani, and David C. Montgomery, "A class of resistive axisymmetric magnetohydrodynammic equilibria in a periodic cylinder," Journal of Plasma Physics 67, 251-269 (2002).
David C. Montgomery and Annick Pouquet, "An alternative interpretation for the Holm 'alpha model'," Physics of Fluids 14, 3365-3366 (2002).
D.C. Montgomery, W.H. Matthaeus, L.J. Milano, and P. Dmitruk "Apparent suppression of turbulent magnetic dynamo action by a dc magnetic field" Physics of Plasmas 9, 1221 (2002).
L.J. Milano, W.H. Matthaeus, P. Dmitruk, and D.C. Montgomery "Local anisotropy in incompressible magnetohydrodynamic turbulence" Physics of Plasmas 8, 2673 (2001).
Thomas S. Levi and David C. Montgomery "Velocity field distributions due to ideal line vortices" Physical Review E 63, 056311 1-8 (2001).
David C. Montgomery "Comment on 'Does flow shear suppress turbulence in nonionized flows?'" Physics of Plasmas 7, 4785-4786 (2000).
Brian T. Kress and David C. Montgomery "Pressure determinations for incompressible fluids and magnetofluids" Journal of Plasma Physics 64, 371-377 (2000).
B.T. Kress and D.C. Montgomery "Incompressible pressure determinations," Proc. 27th European Physical Society Conference on Controlled Fusion and Plasma Physics, Budapest, Hungary, 2000. (Paper P1.003).
J.W. Bates and D.C. Montgomery "The D'yakov-Kontorovich instability of shock waves in real gases," Phys. Rev. Lett. 84, 1180 (2000),Feb. 7 issue.
D.C. Montgomery and J.W. Bates "The geometry and symmetries of magnetohydrodyanmic turbulence: anomalies of spatial periodicity," Phys. Plasmas 6, 2727 (1999).
J.W. Bates and D.C. Montgomery "Some numerical studies of exotic shock wave behavior" Phys. Fluids 11, 462 (1999).
D.C. Montgomery, J.W. Bates, and L.P. Kamp "MHD steady states as a model for confined plasmas" Plasma Phys. & Contr. Fusion 41, Suppl. 3A, A507-A517 (1999).
A.D. Kotelnikov and D.C. Montgomery "Shock Induced Turbulence in Composite Materials at Moderate Reynolds Numbers" Phys. Fluids 10, 2037 (1998).
J.W. Bates and D.C. Montgomery "Toroidal Visco-resistive Magnetohydrodynamic Steady States Contain Vortices" Phys. Plasmas 5, 2649 (1998).
L.P. Kamp, D.C. Montgomery, and J.W. Bates "Toroidal Flows in Resistive Magnetohydrodynamic Steady States" Phys. Fluids 10, 1757 (1998).
A.D. Kotelnikov and D.C. Montgomery "Numerical Study of Shock Propagation in Inhomogeneous Material" Proc. APS Topical Conference on "Shock Compression of Condensed Matter--1997" Amherst, MA, July 27-31, 1997; ed. by Schmidt/Dandekar/Forbes, pp. 183-186 American Institute of Physics, 1998.
D. Montgomery and J.W. Bates "Poloidal Flows in Resistive MHD Equilibria" Proc. 7th European Fusion Theory Conference, Juelich, Germany, 8-10 Oct., 1997 ed. by A. Rogister;Forschungszentrum Juelich GmbH, Juelich, Germany 1998, pp. 119-121.
A.D. Kotelnikov and D. Montgomery "A Kinetic Method for Computing Inhomogeneous Fluid Behavior" Journal of Computational Physics 134, 364 (1997).
S. Li, D. Montgomery, and W.B. Jones "Two-dimensional Turbulence with Rigid Circular Walls" Theoretical Computational Fluid Dynamics 9, 167 (1997).
D. Montgomery, J.W. Bates, and S. Li "Toroidal vortices in Resistive Magnetohydrodynamic Equilibria" Physics of Fluids 9, 1188 (1997).
D. Montgomery, J.W. Bates, and H.R. Lewis "Resistive Magnetohydrodynamic Equilibria" Physics of Plasmas 4, 1080 (1997).
S. Li, D. Montgomery, and W.B. Jones "Inverse Cascades of Angular Momentum" Journal of Plasma Physics 56, 615 (1996).
D. Montgomery "Entropies for Continua: Fluids and Magnetofluids", in MAXIMUM ENTROPY AND BAYESIAN METHODS, ed. by J. Skilling and S. Sibisi (Dordrecht: Kluwer, 1996), pp. 303-314.
S. Li, D. Montgomery "Decaying Two-dimensional Turbulence with Rigid Walls" Phys. Lett. A 218, 281, 1996
D. Montgomery & X. Shan> "Magnetohydrodynamic Turbulence with Net Currents" in 'Small-Scale Structures in Three-Dimensional Hydrodynamic and Magnetohydrodynamic Turbulence,' edited by M. Meneguzzi, A. Pouquet, and P.-L. Sulem (Berlin, Springer-Verlag, 1995; pp. 241-254)
D. Montgomery & W.H. Matthaeus "Anisotropic Modal Energy Transfer in Interstellar Turbulence" Astrophys. J. 447, 706 (1995)
X. Shan & D. Montgomery "Magnetohydrodynamic Stabilization Through Rotation" Phys. Rev. Lett. 73, 1624 (1994)
D. Montgomery & X. Shan "Toroidal Resistive MHD Equilibria" Comments on Plasma Phys. & Contr. Fusion 15, 315 (1994)
W.B. Jones & D. Montgomery "Finite Amplitude Steady States of high Reynolds Number 2-D Channel Flow" Physica D 73, 227 (1994)
X. Shan & D. Montgomery On the role of the Hartmann Number in Magnetohydrodynamic Activity" Plasma Phys. & Contr. Fusion 35, 619 and 1019 (1993).
H. Chen & D. Montgomery "Equilibrium Properties of a Rotating Plasma: Differences Between Fluid Velocity and Drift Velocity" J. Plasma Phys. 49, 341 (1993)
D. Montgomery, X. Shan, & W.H. Matthaeus "Navier-Stokes Relaxation to Sinh-Poisson States at Finite Reynolds Numbers" Phys. Fluids A 5, 2207 (1993).
D. Montgomery, W.H. Matthaeus, W.T. Stribling, D. Martinez, and S. Oughton "Relaxation in Two Dimensions and the 'Sinh-Poisson' Equation Phys. Fluids A 4, 3 (1992)
D. Montgomery "Modifications of Magnetohydrodynamics as Applied to the Solar Wind" J. Geophys. Res. 97, 4309 (1992)
D. Montgomery "Magnetohydrodyanmic Stability Thresholds as a Function of the Hartmann Number and Pinch Ratio" Plasma Phys. & Contr. Fusion 34, 1157 (1992)
W.H. Matthaeus, W.T. Stribling, D. Martinez, S. Oughton, & D. Montgomery "Decaying Two-Dimensional Navier-Stokes Turbulence at Very Long Times" Physica D 51, 531 (1991)
X. Shan, D. Montgomery, & H. Chen "Nonlinear Magnetohydrodynamics by Galerkin-method Computation" Phys. Rev. A 44, 6800 (1991).

Ph.D. theses supervised at Dartmouth

Hudong Chen (American Physical Society Fellow)
Michael L. Theobald
Xiaowen Shan (American Physical Society Fellow)
Wesley B. Jones
Shuojun Li
Alexei Kotelnikov
Brian T. Kress

Postdoctoral Research Associates Supervised at Dartmouth

Ziya Agim
Michael Brown (American Physical Society Fellow)
John Shebalin
Jill Dahlburg (American Physical Society Fellow)
Lee Phillips
Xiaowen Shan (American Physical Society Fellow)
Jason Bates
Hudong Chen (American Physical Society Fellow)
Sanjoy Ghosh
Michael Goodman
Hubert Shen
Wesley Jones
Antonio Ting (American Physical Society Fellow)

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