We would like to invite you and your colleagues to participate in on-line session NP7.1 “Non-linear Waves and Triggering Effects” at European Geosciences Union General Assembly 2024 https://www.egu25.eu.

Division: Nonlinear Processes in Geophysics
Conveners:
Arcady Dyskin¹, Elena Pasternak¹, Sergey Turuntaev^2 
1University of Western Australia, Perth, Australia
²Inst. of Geosphere Dynamics of Russian Academy of Sciences, Moscow, Russia

The congress will be held on 27 April–2 May 2025. The EGU General Assembly 2025 (EGU25) will be a conference with a virtual component where everybody is welcome, in person or online! 

The session is NP7.1
The deadline for abstracts is 15 January 2025.

Waves in the Earth’s crust are often generated by fractures in the process of their sliding or propagation. Conversely, the waves can trigger fracture sliding or even propagation. Analysis of wave propagation and their interaction with pre-existing or emerging fractures is central to geophysics. Recently new observations and theoretical concepts were introduced pointing out to the limitations of the traditional concepts. These are:
• Multiscale nature of wave fields and fractures in geomaterials
• Rotational mechanisms of wave and fracture propagation 
• Strong rock and rock mass non-linearity (such as bilinear stress-strain curve with high modulus in compression and low in tension) and its effect on wave propagation 
• Apparent negative stiffness associated with either rotation of non-spherical constituents or fracture propagation and its effect on wave propagation
• Triggering effects and instability in geomaterials
• Active nature of geomaterials (e.g., seismic emission induced by stress and pressure wave propagation)
• Mechanics of granular material blowout by gas filtration
• Non-linear mechanics of hydraulic fracturing
• Synchronization in fracture processes including earthquakes and volcanic activity

Complex waves are now a key problem of the physical oceanography and atmosphere physics. They are called rogue or freak waves. It may be expected that similar waves are also present in non-linear solids (e.g., granular materials), which suggests the existence of new types of seismic waves. 

It is anticipated that studying these and related phenomena can lead to breakthroughs in understanding of the stress transfer and multiscale failure processes in the Earth’s crust, ocean and atmosphere and facilitate developing better prediction and monitoring methods. The session is designed as a forum for discussing these and similar topics. 

Best regards,
On behalf of the convener’s team