Department of Applied Mathematics
UNIVERSITY OF LEEDS

Publications by Professor D.W. Hughes
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  1. Hughes, D.W. & Proctor, M.R.E. Non-symmetrical three-wave resonance Wave Motion 20 201-209, (1994). 
  2. Hughes, D.W., Matthews, P.C. & Proctor, M.R.E. Magnetic buoyancy, vorticity and three-dimensional flux tube formation. Astrophys. J. 448 938-941 (1995).
  3. Hughes, D.W. & Weiss N.O. Double diffusive convection with two stabilising gradients: strange consequences of magnetic buoyancy J. Fluid Mech., 301 383-406, (1995).
  4. Hughes, D.W., Cattaneo, F. & Kim, E. Suppression of chaos in a simplified nonlinear dynamo model Phys. Rev. Lett., 762057-2060, (1996). 
  5. Hughes, D.W. & Cattaneo, F. Nonlinear saturation of the turbulent a effect Phys. Rev. E., 54R4532-R4535, (1996). 
  6. Hughes, D.W., Cattaneo, F. & Kim, E. Kinetic helicity, magnetic helicity and fast dynamo action Phys. Lett. A 223167-172, (1996). 
  7. Hughes, D.W., Wissink, J.G., Matthews, P.C. & Proctor, M.R.E. The formation of flux tubes from a large scale magnetic field in Advances in the Physics of Sunspots (eds. B. Schmieder J.C. del Toro Iniesta, and M. Vázquez) ASP Conf. Ser.
  8. Matthews, P.C., Hughes, D.W.& Proctor, M.R.E. Magnetic buoyancy, vorticity and three-dimensional flux tube formation Astrophys. J. 448 938-941 (1995)
  9. Kim, E. & Hughes, D.W. Flow helicity in a simplified statistical model of a fast dynamo Phys.Lett. A 236211-218 (1997). 
  10. Hughes, D.W., Falle, S.A.E.G& Joarder, P.  The rise of twisted magnetic flux tubes Mon. Not. R. Astron. Soc. 298 433-444, (1998). 
  11. Hughes, D.W., Cattaneo, F.& Kim, E,  Nonlinear multi-cellular fast dynamos Studia Geophysica et Geodaetica 42328-334, (1998). 
  12. Kim, E., Hughes, D.W. & Soward, A.M.  On a physically realistic fast dynamo Studia Geophysica et Geodaetica 42335-342, (1998). 
  13. Tanner, S.E.M. & Hughes, D.W. Generalisation of a nonlinear dynamo model Studia Geophysica et Geodaetica 42343-349, (1998). 
  14. Hughes, D.W. & Falle, S.A.E.G. The rise of twisted flux tubes: a high Reynolds number adaptive grid calculation Astrophys. J. 509L57-L60, (1998). 
  15. Kim, E., Hughes, D.W. &Soward, A.M.  An investigation into high conductivity dynamo action driven by rotating convection Geophys. Astrophys. Fluid Dyn. (1999).
  16. Hughes, D.W. Magnetic Buoyancy in Encyclopedia of Astronomy and Astrophysics IOP publishing. 
  17. Wissink, J.G., Matthews, P.C.,Hughes, D.W. & Proctor, M.R.E. Numerical simulations of buoyant magnetic flux tubes Astrophys. J.
  18. Wissink, J.G., Hughes, D.W.,Matthews, P.C., & Proctor, M.R.E. The three dimensional breakup of a magnetic layer Mon. Not. R. Astron. Soc.
  19. Wissink, J. G. Matthews, P. C. Hughes, D. W. Proctor, M. R. E. Numerical Simulations of Buoyant Magnetic Flux Tubes The Astrophysical Journal 536 982-997.
  20. Fausto Cattaneo and David W Hughes Solar dynamo theory Solar dynamo theory: a new look at the origin of small-scale magnetic fields Astronomy and Geophysics 42 3-18 (2001)
  21. Mason, J., Hughes D.W. & Tobias, S.M. The competition in the solar dynamo between surface and deep-seated α-effects Astrophys. J. Letters 580 L89--L92. (2002)
  22. Fausto Cattaneo, David W. Hughes and Jean-Claude Thelen The nonlinear properties of a large-scale dynamo driven by helical forcing Journal of Fluid Mechanics 456 219-237 (2002)