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Lagrangian coherent structures (LCSs) are distinguished surfaces of trajectories in a dynamical system that exert a major influence on nearby trajectories over a time interval of interest. The type of this influence may vary, but it invariably creates a coherent trajectory pattern for which the underlying LCS serves as a theoretical centerpiece. In observations of tracer patterns in nature, one readily identifies coherent features, but it is often the underlying structure creating these features that is of interest. Indeed, individual tracer trajectories forming coherent patterns are generally sensitive with respect to changes in their initial conditions and the system parameters. In contrast, the LCSs creating these trajectory patterns turn out to be robust and provide a simplified skeleton of the overall dynamics of the system.〔 Physical examples include floating debris, oil spills, surface drifters and chlorophyll patterns in the ocean; clouds of volcanic ash and spores in the atmosphere; and coherent crowd patterns formed by humans and animals. While LCSs may exist in any dynamical system, their role in creating coherent patterns is perhaps most readily observable in fluid flows. The images below are examples of how different types of LCSs hidden in geophysical flows shape tracer patterns. Hyperbolic and elliptic LCSs (Paul Scully-Power/NASA) File:Swimmers in rip current.jpeg|''Swimmers in a rip current'' Hyperbolic LCS (Joo Yong Lee/Sungkyunkwan University) File:SST Gulf stream.jpeg|''Sea surface temperature in Gulf Stream'' Parabolic LCSs (NASA) File:Agulhas ring.jpeg|''Phytoplankton in Agulhas ring'' 2D elliptic LCS (NASA/GSFC) File:Water tube.jpeg|''Tornado off the Florida Keys'' 3D elliptic LCS (cylindrical) (Joseph Golden/NOAA) File:Steam ring.jpeg|''A steam ring from Mount Etna'' 3D elliptic LCS (toroidal) (Tom Pfeiffer ()) == General definitions == 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Lagrangian coherent structure」の詳細全文を読む スポンサード リンク
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