71,173 research outputs found
The numerical operator method to the real time dynamics of currents through the nanostructures with different topologies
We present the numerical operator method designed for the real time dynamics
of currents through nanostructures beyond the linear response regime. We apply
this method to the transient and stationary currents through nanostructures
with different topologies, e.g., the flakes of square and honeycomb lattices.
We find a quasi-stationary stage with a life proportional to the flake size in
the transient currents through the square flakes, but this quasi-stationary
stage is destroyed in the presence of disorder. However, there is no
quasi-stationary stage in the transient currents through the honeycomb flakes,
showing that the transient current depends strongly upon the topologies of the
nanostructures. We also study the stationary current by taking the limit of the
current at long times. We find that the stationary current through a square
flake increases smoothly as the voltage bias increasing. In contrast, we find a
threshold voltage in the current-voltage curve through a honeycomb flake,
indicating a gap at the Fermi energy of a honeycomb flake.Comment: 13 pages, 4 figure
A model for dynamic communicators
We develop and test an intuitively simple dynamic network model to describe the type of time-varying connectivity structure present in many technological settings. The model assumes that nodes have an inherent hierarchy governing the emergence of new connections. This idea draws on newly established concepts in online human behaviour concerning the existence of discussion catalysts, who initiate long threads, and online leaders, who trigger feedback. We show that the model captures an important property found in e-mail and voice call data – ‘dynamic communicators’ with sufficient foresight or impact to generate effective links and having an influence that is grossly underestimated by static measures based on snaphots or aggregated data
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