通过全局延迟反馈控制化学湍流：Pt(110)上催化CO氧化中的图案形成。

Controlling chemical turbulence by global delayed feedback: pattern formation in catalytic CO oxidation on Pt(110).

作者信息

Kim M, Bertram M, Pollmann M, von Oertzen A, Mikhailov A S, Rotermund H H, Ertl G

机构信息

Abteilung Physikalische Chemie, Fritz-Haber-Institut der Max-Planck-Gesellschaft, Faradayweg 4-6, 14195 Berlin, Germany.

出版信息

Science. 2001 May 18;292(5520):1357-60. doi: 10.1126/science.1059478.

DOI:10.1126/science.1059478

PMID:11359007

Abstract

Control of spatiotemporal chaos is one of the central problems of nonlinear dynamics. We report on suppression of chemical turbulence by global delayed feedback using, as an example, catalytic carbon monoxide oxidation on a platinum (110) single-crystal surface and carbon monoxide partial pressure as the controlled feedback variable. When feedback intensity was increased, spiral-wave turbulence was transformed into new intermittent chaotic regimes with cascades of reproducing and annihilating local structures on the background of uniform oscillations. The global feedback further led to the development of cluster patterns and standing waves and to the stabilization of uniform oscillations. These findings are reproduced by theoretical simulations.

摘要

时空混沌的控制是非线性动力学的核心问题之一。我们以铂（110）单晶表面上的催化一氧化碳氧化以及一氧化碳分压作为受控反馈变量为例，报告了利用全局延迟反馈对化学湍流的抑制情况。当反馈强度增加时，螺旋波湍流转变为新的间歇混沌状态，在均匀振荡的背景下出现了一系列不断再现和湮灭的局部结构。全局反馈进一步导致了团簇图案和驻波的形成以及均匀振荡的稳定。这些发现通过理论模拟得以重现。

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通过全局延迟反馈控制化学湍流：Pt(110)上催化CO氧化中的图案形成。

Controlling chemical turbulence by global delayed feedback: pattern formation in catalytic CO oxidation on Pt(110).

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