SUSAN JEAN FRIEDLANDER

Department of Mathematics, Statistics, and Computer Science
University of Illinois at Chicago
851 S. Morgan Street; MC249
Chicago IL 60607-7045

(312) 413-2167 (tel.)

(312) 996-1491 (FAX)

susan@math.uic.edu (Email)

PUBLICATIONS

   Papers

  1. S. J. Friedlander, Spin-down in a rotating stratified fluid, Part I, Stud. Appl. Math., vol. LIII, pp. 111-136, 1974.

  2. S. J. Friedlander, Interaction of vortices on the surface of a rotating sphere, Tellus, vol. 27, pp. 15-24, 1975.

  3. S. J. Friedlander, Quasi-steady flow of a rotating stratified fluid in a sphere, J. Fluid Mech., vol. 76, pp. 209-228, 1976.

  4. S. J. Friedlander and J.V. Smith, Limits to tidal control on lunar asymmetry, Lunar Science, vol. VIII, pp. 322-324, 1977.

  5. S. J. Friedlander, Hydrostatic tidal model for lunar asymmetry, Geophys. Astrophys. Fluid Dynamics, vol. 15, pp. 105-122, 1980.

  6. S. J. Friedlander, An Introduction to the Mathematical Theory of Geophysical Fluid Dynamics, Mathematics Studies, vol. 41, North-Holland, 282 pp., 1980.

  7. S. J. Friedlander and W. L. Siegmann, Internal waves in the ocean stratified with variable buoyancy frequency, An. Acad. Brasil Cienc., vol. 53, pp. 213-221, 1981. 
     TEMPORARY FORMAT
    


  8.  S. J. Friedlander and W. L. Siegmann,
%T Internal waves in a contained rotating stratified fluid
%J J. Fluid Mech.
vol. 114
pp. 123-156
%D 1982


  9.  S. J. Friedlander and W. L. Siegmann,
%T Internal waves in a rotating stratified fluid in an arbitrary gravitational field
%J Geophys. Astrophys. Fluid Dynamics
vol. 19
pp. 267-291
%D 1982


  10.  S. J. Friedlander
%T Turning surface behaviour for internal waves subject to general gravitational fields
%J Geophys. Astrophys. Fluid Dynamics
vol. 21
pp. 189-200
%D 1982


  11.  S. J. Friedlander and W. L. Siegmann,
%T Effects of dissipation on internal waves in a contained rotating stratified fluid
%J Fluid Dynamics
vol. 27
pp. 183-216
%D 1983


  12. 
S. J. Friedlander,
%T Ordinary differential equations and internal waves, Diff and Integral
Equations
%J Proc. 13th Midewest Conference
pp. 36-54
%D 1985


  13. 
S. J. Friedlander,
%T Internal oscillations in the Earth's fluid core
%J Geophys. J. Roy. Astro. Soc.
vol. 80
pp. 345-361
%D 1985


  14.  S. J. Friedlander
%T Stability of the subseismic wave equation for the Earth's fluid core
%J Geophys. Astrophys. Fluid Dynamics
vol. 31
pp. 151-167
%D 1985


  15.  S. J. Friedlander
%T Ordinary differential equations and internal waves, Differential and
Integral Equations
%B Proc. 13th Midwest Conf.
%E J.L. Henderson
pp. 36-54
%D 1985


  16.  S. J. Friedlander
%T Internal waves in a rotating spherical shell:  asymptotic solutions
%J Geophys. J. Roy. Astro. Soc.
vol. 89
pp. 637-657
%D 1987


  17.  S. J. Friedlander
%T Hydromagnetic waves in the Earth's fluid core
%J Proc. Symp. U2, 19th General Assembly of I.U.G.G.
vol. U2-28
pp. 1510
%D 1987


  18.  S. J. Friedlander
%T Hydromagnetic waves in the Earth's fluid core
%J Geophys. Astrophys. Fluid Dynamics
vol. 39
pp. 315-333
%D 1987


  19.  S. J. Friedlander
%T Stability and waves in the Earth's fluid core
%B Proc. Conf. on Energy Stability and Convection
%E B. Straughan
%I Longman Scientific Press Pitman Research Notes in Mathematics
vol. 168
pp. 325-345
%D 1988


  20.  S. J. Friedlander
%T Asymptotic behaviour of decay rates of internal waves in a rotating stratified spherical shell
%J Geophysical J. Roy. Astro. Soc.
vol. 96
pp. 245-252
%D 1989


  21.  S. J. Friedlander
%T Conditions for hydromagnetic instabilities in a contained rotating stratified fluid
%J Geophy. Astrophys. Fluid Dynamics
vol. 46
pp. 245-260
%D 1989


  22.  S. J. Friedlander
%T Hydromagnetic waves in a differentially rotating, stratified spherical shell
%J Geophys. Astrophys. Fluid Dynamics
vol. 48
pp. 53-67
%D 1989


  23. 
S. J. Friedlander and M.M. Vishik,
%T Nonlinear stability for stratified magnetohydrodynamics
%J Geophys. Astrophys. Fluid Dynamics
vol. 55
pp. 19-45
%D 1990


  24.  S. J. Friedlander and M.M. Vishik,
%T Lax pair formulation for the Euler equation
%J 148 no. 6
vol. 7
pp. 313-319
%D 1990


  25.  S. J. Friedlander and M.M. Vishik,
%T Instability criteria for the flow of an inviscid incompressible fluid
%J Phys. Rev. Lett.
vol. 66
no. 17
pp. 2204-2206
%D 1991


  26.  S. J. Friedlander and M.M. Vishik,
%T Dynamo theory, vorticity generation and exponential stretching
%J Chaos
vol. 1
no. 2
pp. 198-205
%D 1991


  27.  S. J. Friedlander and M.M. Vishik,
%T Instability criteria in fluid dynamics
%J NATO ASI
vol. 218
%I Kluwer
pp. 535-549
%D 1992


  28.  S. J. Friedlander and M.M. Vishik,
%T Instability criteria for steady flows of a pertect fluid
%T Chaos
vol. 2
no. 3
pp. 455-460
%D 1992


  29.  S. J. Friedlander and M.M. Vishik
%T An inverse scattering treatment for the flow of an ideal fluid in 2 dimensions
%J Nonlinearity
vol. 6
pp. 231-249
%D 1993


  30.  S. J. Friedlander and M.M. Vishik,
%T Dynamo theory methods for hydrodynamic stability
%J J. Math. Pure et Applique
vol. 72
pp. 145-180
%D 1993


  31.  S. J. Friedlander, M.M. Vishik and A. Gilbert,
%T Hydrodynamic instability for certain ABC flows
%J Geophys. Astrophys. Fluid Dynamics
vol. 73
pp. 97-107
%D 1993


  32.  S. J. Friedlander and M.M. Vishik,
%T On stability and instability criteria for magnetohydrodynamics
%J Chaos
vol. 5
no. 2
pp. 416-423
%D 1995


  33.  S. J. Friedlander and W. Strauss and M.M. Vishik,
%T Nonlinear instability in hydrodynamics of an ideal fluid
%J Annales IHP, J. Nonlineaire
vol. 14
no. 2
pp. 187-209
%D 1997


  34.  S. J. Friedlander and A. Lyashenko,
%T Nonlinear instability of a processing body with a cavity filed by an
ideal fluid
%J SIAM J. Math. Analysis
vol. 29
no. 2
%D 1998


  35.  S. J. Friedlander and L. Howard,
%T Instability in parallel flows revisted
%O to appear, Studies in Applied Math


  36.  S. J. Friedlander and M.M. Vishik,
%T Asymptotic methods for magnethydrodynamic stability
%O to appear, Quarterly of Applied Math


  37.  S. J. Friedlander,
%T Lectures on Stability and Instability of an ideal fluid
%O to appear, IAS/Park City Lectures, AMS vol. 3., Ed. L. Caffarelli


  38.  S. J. Friedlander and A. Lyashenko,
%T A sufficient condition for instability in the limit of vanishing
dissipation
%O to appear, J. Math Analysis and Applications
\pubhead{Reviews}

  1. S. J. Friedlander %T Rheometry %O by K. Walters, S.I.A.M. Reviews 20 (1978), 197-198

  2. S. J. Friedlander %T Free Oscillations of the Earth %O by E. Lapwood and T. Usami, S.I.A.M. Reviews 24 (1982), 496-497

  3. S. J. Friedlander %T Imaging the Earth's Interior %O by J.F. Claerbout, S.I.A.M. Reviews 28 (1986), 256-257
\pubhead{Interdisciplinary Publications}

  1. S. J. Friedlander and A. Powell, %T The Mathematical Miller of Nottingham %J The Mathematical Intelligencer II vol. 4 pp. 38-40 %D 1989

  2. S. J. Friedlander %T A Celebration of women in mathematics %J Notices of AMS vol. 42 no. 1 pp. 32-42 %D 1995

Web Source:http://www.math.uic.edu/~hanson/susan.publist.html

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