Add to ORKGWe numerically investigate the behavior of driven noncohesive granular media and find that two fixed large intruder particles, immersed in a sea of small particles, experience, in addition to a short-range depletion force, a long-range repulsive force. The observed long-range interaction is fluctuation-induced and we propose a mechanism similar to the Casimir effect that generates it: The hydrodynamic fluctuations are geometrically confined between the intruders, producing an unbalanced renormalized pressure. An estimation based on computing the possible Fourier modes explains the repulsive force and is in qualitative agreement with the simulations
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
Casimir forces can appear between intrusions placed in different media driven by several fluctua-tio...
We study the fluctuation-induced, time-dependent force between two plates confining a correlated flu...
We numerically investigate the behavior of driven noncohesive granular media and find that two fixed...
We numerically investigate the behavior of driven noncohesive granular media and find that two fixed...
We numerically investigate the behavior of driven noncohesive granular media and find that two fixed...
We numerically investigate the behavior of driven noncohesive granular media and find that two fixed...
Abstract In this paper we present a method to calculate Casimir Forces for non equilibrium systems w...
In the present work, we propose a method to determine fluctuation-induced forces in nonequilibrium s...
In the present work, we propose a method to determine fluctuation-induced forces in nonequilibrium s...
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
Casimir forces can appear between intrusions placed in different media driven by several fluctua-tio...
We study the fluctuation-induced, time-dependent force between two plates confining a correlated flu...
We numerically investigate the behavior of driven noncohesive granular media and find that two fixed...
We numerically investigate the behavior of driven noncohesive granular media and find that two fixed...
We numerically investigate the behavior of driven noncohesive granular media and find that two fixed...
We numerically investigate the behavior of driven noncohesive granular media and find that two fixed...
Abstract In this paper we present a method to calculate Casimir Forces for non equilibrium systems w...
In the present work, we propose a method to determine fluctuation-induced forces in nonequilibrium s...
In the present work, we propose a method to determine fluctuation-induced forces in nonequilibrium s...
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
We study the mechanical actions affecting close scatterers immersed in a coherent fermionic fluid. U...
Casimir forces can appear between intrusions placed in different media driven by several fluctua-tio...
We study the fluctuation-induced, time-dependent force between two plates confining a correlated flu...