Pattern formation is a natural property of nonlinear and non-equilibrium dynamical systems. Geophysical examples of such systems span practically all observable length scales, from rhythmic banding of chemical species within a single mineral crystal, to the morphology of cusps and spits along hundreds of kilometres of coastlines. This article briefly introduces the general principles of pattern formation and argues how they can be applied to open problems in the Earth sciences. Particular examples are then discussed, which summarize the contents of the rest of this Theme Issue
This Essay is response to the general question that I put to myself: How should I, an outsider to th...
The evolution of many pattern-forming systems is strongly influenced by the presence of a conserved ...
A comprehensive review of spatiotemporal pattern formation in systems driven away from equilibrium i...
Pattern formation is a natural property of nonlinear and non-equilibrium dynamical systems. Geophysi...
Pattern formation is a subfield of nonlinear dynamics in spatially extended systems. Although the la...
Increasingly, geomorphic systems are viewed as nonlinear dynamical systems (NDS) and are examined us...
Presented on February 4, 2013 at 6:00 pm in the Clough Undergraduate Learning Commons - Room 144.Run...
Biological systems excel at building spatial structures on scales ranging from nanometers to kilomet...
In these lectures some simple ideas common to theories of pattern formation in diverse areas of Phys...
Pattern formation by local amplification and lateral inhibition is a common process in nature, respo...
Nature has a range of distinct mechanisms that cause initially heterogeneous systems to break their ...
Geomorphic systems are typically nonlinear, owing largely to their threshold-dominated nature (but d...
Pattern formation is a phenomenon that arises in a wide variety of physical, chemical and biologica...
Various types of pattern formation and self-organization phenomena can be observed in biological, ch...
Highly organized vegetation patterns can be found in a number of landscapes around the world. In rec...
This Essay is response to the general question that I put to myself: How should I, an outsider to th...
The evolution of many pattern-forming systems is strongly influenced by the presence of a conserved ...
A comprehensive review of spatiotemporal pattern formation in systems driven away from equilibrium i...
Pattern formation is a natural property of nonlinear and non-equilibrium dynamical systems. Geophysi...
Pattern formation is a subfield of nonlinear dynamics in spatially extended systems. Although the la...
Increasingly, geomorphic systems are viewed as nonlinear dynamical systems (NDS) and are examined us...
Presented on February 4, 2013 at 6:00 pm in the Clough Undergraduate Learning Commons - Room 144.Run...
Biological systems excel at building spatial structures on scales ranging from nanometers to kilomet...
In these lectures some simple ideas common to theories of pattern formation in diverse areas of Phys...
Pattern formation by local amplification and lateral inhibition is a common process in nature, respo...
Nature has a range of distinct mechanisms that cause initially heterogeneous systems to break their ...
Geomorphic systems are typically nonlinear, owing largely to their threshold-dominated nature (but d...
Pattern formation is a phenomenon that arises in a wide variety of physical, chemical and biologica...
Various types of pattern formation and self-organization phenomena can be observed in biological, ch...
Highly organized vegetation patterns can be found in a number of landscapes around the world. In rec...
This Essay is response to the general question that I put to myself: How should I, an outsider to th...
The evolution of many pattern-forming systems is strongly influenced by the presence of a conserved ...
A comprehensive review of spatiotemporal pattern formation in systems driven away from equilibrium i...