Influence of boundaries on pattern selection in through-flow

D. Roth(1); Forschungszentrum; Germany); Germany (2) Hoechstleistungsrechenzentrum; Germany (3) Institut fuer Festkoerperforschung; H. W. Mueller(1); Juelich; M. Kamps(2); M. Luecke(1); P. Buechel(1)

arxiv: patt-sol/9610003 · v2 · pith:LP2BMVNWnew · submitted 1996-09-30 · patt-sol · nlin.PS

Influence of boundaries on pattern selection in through-flow

D. Roth(1) , P. Buechel(1) , M. Luecke(1) , H. W. Mueller(1) , M. Kamps(2) , R. Schmitz(3) ((1) Institut fuer Theoretische Physik , Universitaet des Saarlandes , Saarbruecken

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Germany (2) Hoechstleistungsrechenzentrum Forschungszentrum Juelich Germany (3) Institut fuer Festkoerperforschung Germany)

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classification patt-sol nlin.PS

keywords boundarypatternproblemselectionconditionsconvectionflowpropagating

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The problem of pattern selection in absolutely unstable open flow systems is investigated by considering the example of Rayleigh-B\'{e}nard convection. The spatiotemporal structure of convection rolls propagating downstream in an externally imposed flow is determined for six different inlet/outlet boundary conditions. Results are obtained by numerical simulations of the Navier-Stokes equations and by comparison with the corresponding Ginzburg-Landau amplitude equation. A unique selection process is observed being a function of the control parameters and the boundary conditions but independent of the history and the system length. The problem can be formulated in terms of a nonlinear eigen/boundary value problem where the frequency of the propagating pattern is the eigenvalue. PACS: 47.54.+r, 47.20.Bp, 47.27.Te, 47.20.Ky

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Influence of boundaries on pattern selection in through-flow

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