Add to ORKGWe examine the structural relaxation of glassy materials at finite temperatures, considering the effect of activated rearrangements and long-range elastic interactions. Our three-dimensional mesoscopic relaxation model shows how the displacements induced by localized relaxation events can result in faster-than-exponential relaxation. Thermal activation allows for local rearrangements, which generate elastic responses and possibly cascades of new relaxation events. To study the interplay between this elastically-dominated and thermally-dominated dynamics, we introduce tracer particles that follow the displacement field induced by the local relaxation events and also incorporate Brownian motion. Our results reveal that the dynamic exponents a...
We show that the density and temperature dependences of the α-relaxation time of several glass-formi...
Once a structural glass is formed, its relaxation time will increase exponentially with decreasing t...
The noncrystalline glassy state of matter plays a role in virtually all fields of materials science ...
The short-range ordered but long-range disordered structure of metallic glasses yields strong struct...
One of the hallmarks of disordered matter is the large amplitude of the anelastic deformation, i.e.,...
Still very little is known on the relaxation dynamics of glasses at the microscopic level due to the...
While lots of measurements describe the relaxation dynamics of the liquid state, experimental data o...
Understanding mechanical relaxation, such as primary (a) and secondary (ß) relaxation, is key to unr...
The influence of cyclic loading and glass stability on structural relaxation and yielding transition...
Non-equilibrium dynamics in the glassy state lead to interesting aging and memory effects. In this d...
This paper provides evidence that the physical aging of deeply and rapidly quenched metallic glasses...
Glasses are ubiquitous in daily life and have unique properties which are a consequence of the under...
This article has been published in a revised form in Journal of Materials Research, https://doi.org/...
We study the effect of periodic, spatially uniform temperature variation on mechanical properties an...
The microscopic dynamics of spontaneously aged and rejuvenated glassy Laponite is investigated throu...
We show that the density and temperature dependences of the α-relaxation time of several glass-formi...
Once a structural glass is formed, its relaxation time will increase exponentially with decreasing t...
The noncrystalline glassy state of matter plays a role in virtually all fields of materials science ...
The short-range ordered but long-range disordered structure of metallic glasses yields strong struct...
One of the hallmarks of disordered matter is the large amplitude of the anelastic deformation, i.e.,...
Still very little is known on the relaxation dynamics of glasses at the microscopic level due to the...
While lots of measurements describe the relaxation dynamics of the liquid state, experimental data o...
Understanding mechanical relaxation, such as primary (a) and secondary (ß) relaxation, is key to unr...
The influence of cyclic loading and glass stability on structural relaxation and yielding transition...
Non-equilibrium dynamics in the glassy state lead to interesting aging and memory effects. In this d...
This paper provides evidence that the physical aging of deeply and rapidly quenched metallic glasses...
Glasses are ubiquitous in daily life and have unique properties which are a consequence of the under...
This article has been published in a revised form in Journal of Materials Research, https://doi.org/...
We study the effect of periodic, spatially uniform temperature variation on mechanical properties an...
The microscopic dynamics of spontaneously aged and rejuvenated glassy Laponite is investigated throu...
We show that the density and temperature dependences of the α-relaxation time of several glass-formi...
Once a structural glass is formed, its relaxation time will increase exponentially with decreasing t...
The noncrystalline glassy state of matter plays a role in virtually all fields of materials science ...