Percolating magmas in three dimensions

Abstract: Abstract. The classical models of volcanic eruptions assume that they originate as a consequence of critical stresses or critical strain rates being exceeded in the magma followed by catastrophic fragmentation. In a recent paper (Gaonac'h et al., 2003) we proposed an additional mechanism based on the properties of complex networks of overlapping bubbles; that extreme multibubble coalescence could lead to catastrophic changes in the magma rheology at a critical vesicularity. This is possible because at a critic… Show more

“…Such non-linear dynamics yield hierarchical distributions, space-time fractal sets or fields, self-organized critical events Gaonac'h et al, 2007). The mathematics and physics involved appear to provide a robust yet simple way to describe these phenomena over wide ranges of scale and represent a natural approach to characterizing such systems (Logsdon et al, 2008).…”

<i>Preface</i> "Nonlinear and scaling processes in Hydrology and Soil Science"

“…Such non-linear dynamics yield hierarchical distributions, space-time fractal sets or fields, self-organized critical events Gaonac'h et al, 2007). The mathematics and physics involved appear to provide a robust yet simple way to describe these phenomena over wide ranges of scale and represent a natural approach to characterizing such systems (Logsdon et al, 2008).…”

<i>Preface</i> "Nonlinear and scaling processes in Hydrology and Soil Science"

An expansion–coalescence model to track gas bubble populations in magmas