Extensive Scaling and Nonuniformity of the Karhunen-Lo\`eve Decomposition for the Spiral-Defect Chaos State

(2) Schlumberger - ATE; (3) Department of Physics; (4) Department of Physics; CA; Center for Nonlinear; Center for Nonlinear Science; Center for Nonlinear Studies; Complex Systems; Duke University; Durham

arxiv: chao-dyn/9808006 · v1 · submitted 1998-08-05 · chao-dyn · nlin.CD

Extensive Scaling and Nonuniformity of the Karhunen-Lo\`eve Decomposition for the Spiral-Defect Chaos State

Scott M. Zoldi (1) , Jun Liu (2) , Kapil M. S. Bajaj (3) , Henry S. Greenside (4) , Guenter Ahlers (3) ((1) Theoretical Division , Center for Nonlinear Studies , Los Alamos National Laboratory , Los Alamos

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NM USA (2) Schlumberger - ATE San Jose CA (3) Department of Physics Center for Nonlinear Science University of California Santa Barbara (4) Department of Physics Center for Nonlinear Complex Systems Duke University Durham NC USA)

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classification chao-dyn nlin.CD

keywords decompositionextensiveextensivelykarhunen-lolengthnonuniformityscalinganalyzing

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By analyzing large-aspect-ratio spiral-defect-chaos (SDC) convection images, we show that the Karhunen-Lo\`eve decomposition (KLD) scales extensively for subsystem-sizes larger than 4d (d is the fluid depth), which strongly suggests that SDC is extensively chaotic. From this extensive scaling, the intensive length \xi_KLD is computed and found to have a different dependence on the Rayleigh number than the two-point correlation length \xi_2. Local computations of \xi_KLD reveal a substantial spatial nonuniformity of SDC that extends over radii 18d< r < 45d in a \Gamma=109 aspect-ratio cell.

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Extensive Scaling and Nonuniformity of the Karhunen-Lo\`eve Decomposition for the Spiral-Defect Chaos State

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