37,993 research outputs found
The excitation operator approach to non-Markovian dynamics of quantum impurity models in the Kondo regime
We present a numerical method for studying the real time dynamics of a small
interacting quantum system coupled to an infinite fermionic reservoir. By
building an orthonormal basis in the operator space, we turn the Heisenberg
equation of motion into a system of linear differential equations, which is
then solved iteratively by constructing excitation operators. The application
of our method depends on a layer structure in the operator space, which help us
to turn an infinite linear system into a series of small systems. We apply the
method to investigate the decoherence dynamics of quantum impurity models in
the Kondo regime with a non-Markovian reservoir. Taking full account of
environmental back-actions and electron-electron interactions, we find that the
coexistence of the Kondo correlation and a non-Markovian reservoir induces
coherence ringings, which will be suppressed by either driving the system away
from the particle-hole symmetric point or changing the reservoir into a
Markovian one.Comment: 7 pages, 5 figure
Evolutionary dynamics of cooperation on interdependent networks with Prisoner's Dilemma and Snowdrift Game
The world in which we are living is a huge network of networks and should be
described by interdependent networks. The interdependence between networks
significantly affects the evolutionary dynamics of cooperation on them.
Meanwhile, due to the diversity and complexity of social and biological
systems, players on different networks may not interact with each other by the
same way, which should be described by multiple models in evolutionary game
theory, such as the Prisoner's Dilemma and Snowdrift Game. We therefore study
the evolutionary dynamics of cooperation on two interdependent networks playing
different games respectively. We clearly evidence that, with the increment of
network interdependence, the evolution of cooperation is dramatically promoted
on the network playing Prisoner's Dilemma. The cooperation level of the network
playing Snowdrift Game reduces correspondingly, although it is almost
invisible. In particular, there exists an optimal intermediate region of
network interdependence maximizing the growth rate of the evolution of
cooperation on the network playing Prisoner's Dilemma. Remarkably, players
contacting with other network have advantage in the evolution of cooperation
than the others on the same network.Comment: 6 pages, 6 figure
Density matrix of chaotic quantum systems
The nonequilibrium dynamics in chaotic quantum systems denies a fully
understanding up to now, even if thermalization in the long-time asymptotic
state has been explained by the eigenstate thermalization hypothesis which
assumes a universal form of the observable matrix elements in the eigenbasis of
Hamiltonian. It was recently proposed that the density matrix elements have
also a universal form, which can be used to understand the nonequilibrium
dynamics at the whole time scale, from the transient regime to the long-time
steady limit. In this paper, we numerically test these assumptions for density
matrix in the models of spins.Comment: 6 pages, 5 figure
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