Fundamental interactions are either fully or nearly symmetric under time reversal. But macroscopic phenomena may have a definite arrow of time. From the perspectives of statistical physics, the direction of time is towards increasing entropy. In this paper, we provide another perspective on the arrow of time. In driven-dissipative nonequilibrium systems forced at large scale, the energy typically flows from large scales to dissipative scales. This generic and multiscale process breaks time reversal symmetry and principle of detailed balance, thus can yield an arrow of time. In this paper we propose that conversion of large-scale coherence to small-scales decoherence could be treated as a dissipation mechanism for generic physical systems. W...
AbstractI give an explanation of the thermodynamic arrow-of-time (namely entropy increases with time...
AbstractIt is commonly thought that time asymmetry and process irreversibility find their best illus...
Abstract If one demystifies entropy the second law of thermodynamics comes out as an emergent proper...
© 2015 IOP Publishing Ltd. It is generally believed that a cosmological arrow of time must be associ...
The recent development of the theory of fluctuation relations has led to new insights into the ever-...
At molecular scales, fluctuations play a significant role and prevent biomolecular processes from al...
In this paper, we transfer the global arrow of time introduced in previous works to the local contex...
Turbulent flows governed by the Navier-Stokes equations (NSE) generate an out-of-equilibrium time ir...
We study the energy flow between a one-dimensional oscillator and a chaotic system with two degrees ...
The concept of time is examined using the second law of thermodynamics that was recently formulated ...
Thermodynamic equilibrium is a strong constraint on the statistics of physical systems that has led ...
The nonequilibrium dissipation behaviour discovered for decaying fractal square grid-generated turb...
We show that the evidence for a local arrow of time, which is equivalent to the entropy production i...
Abstract. We consider three examples of dissipative dynamical systems involving many degrees of free...
We solve analytically the period of a single triad interaction of homogeneous isotropic turbulence. ...
AbstractI give an explanation of the thermodynamic arrow-of-time (namely entropy increases with time...
AbstractIt is commonly thought that time asymmetry and process irreversibility find their best illus...
Abstract If one demystifies entropy the second law of thermodynamics comes out as an emergent proper...
© 2015 IOP Publishing Ltd. It is generally believed that a cosmological arrow of time must be associ...
The recent development of the theory of fluctuation relations has led to new insights into the ever-...
At molecular scales, fluctuations play a significant role and prevent biomolecular processes from al...
In this paper, we transfer the global arrow of time introduced in previous works to the local contex...
Turbulent flows governed by the Navier-Stokes equations (NSE) generate an out-of-equilibrium time ir...
We study the energy flow between a one-dimensional oscillator and a chaotic system with two degrees ...
The concept of time is examined using the second law of thermodynamics that was recently formulated ...
Thermodynamic equilibrium is a strong constraint on the statistics of physical systems that has led ...
The nonequilibrium dissipation behaviour discovered for decaying fractal square grid-generated turb...
We show that the evidence for a local arrow of time, which is equivalent to the entropy production i...
Abstract. We consider three examples of dissipative dynamical systems involving many degrees of free...
We solve analytically the period of a single triad interaction of homogeneous isotropic turbulence. ...
AbstractI give an explanation of the thermodynamic arrow-of-time (namely entropy increases with time...
AbstractIt is commonly thought that time asymmetry and process irreversibility find their best illus...
Abstract If one demystifies entropy the second law of thermodynamics comes out as an emergent proper...