The inherent properties of specific physical systems can be used as metaphors for investigation of the behavior of complex networks. This insight has already been put into practice in previous work, e.g., studying the network evolution in terms of phase transitions of quantum gases or representing distances among nodes as if they were particle energies. This paper shows that the emergence of different structures in complex networks, such as the scale-free and the winner-takes-all networks, can be represented in terms of a quantum–classical transition for quantum gases. In particular, we propose a model of fermionic networks that allows us to investigate the network evolution and its dependence on the system temperature. Simulations, perform...
In the last few years the research on networks has taken different directions producing rather unexp...
We propose a characterization of complex networks, based on the potential of an associated Schröding...
A version of a network model of quantum Hall systems is studied classically. We assume that randomne...
The inherent properties of specific physical systems can be used as metaphors for investigation of t...
In this paper, we present a novel thermodynamic framework for graphs that can be used to analyze tim...
In this article, we present a novel analysis of time-evolving networks, based on a thermodynamic rep...
In this paper, we present a novel thermodynamic framework for graphs that can be used to analyze tim...
In this paper, we introduce a non-interacting boson model to investigate the topological structure o...
Critical phenomena can show unusual phase diagrams when defined in complex network topologies. The c...
Mesoscopic quantum systems exhibit complex many-body quantum phenomena, where interactions between s...
In this theoretical study, we analyze quantum walks on complex networks, which model network-based p...
We consider transitions in quantum networks analogous to those in the two-dimensional Ising model. W...
Recent progress in applying complex network theory to problems in quantum information has resulted i...
Trabajo presentado en el IFISC Poster Party (online).-- The IFISC Poster Party is an annual activit...
In quantum gravity, several approaches have been proposed until now for the quantum description of d...
In the last few years the research on networks has taken different directions producing rather unexp...
We propose a characterization of complex networks, based on the potential of an associated Schröding...
A version of a network model of quantum Hall systems is studied classically. We assume that randomne...
The inherent properties of specific physical systems can be used as metaphors for investigation of t...
In this paper, we present a novel thermodynamic framework for graphs that can be used to analyze tim...
In this article, we present a novel analysis of time-evolving networks, based on a thermodynamic rep...
In this paper, we present a novel thermodynamic framework for graphs that can be used to analyze tim...
In this paper, we introduce a non-interacting boson model to investigate the topological structure o...
Critical phenomena can show unusual phase diagrams when defined in complex network topologies. The c...
Mesoscopic quantum systems exhibit complex many-body quantum phenomena, where interactions between s...
In this theoretical study, we analyze quantum walks on complex networks, which model network-based p...
We consider transitions in quantum networks analogous to those in the two-dimensional Ising model. W...
Recent progress in applying complex network theory to problems in quantum information has resulted i...
Trabajo presentado en el IFISC Poster Party (online).-- The IFISC Poster Party is an annual activit...
In quantum gravity, several approaches have been proposed until now for the quantum description of d...
In the last few years the research on networks has taken different directions producing rather unexp...
We propose a characterization of complex networks, based on the potential of an associated Schröding...
A version of a network model of quantum Hall systems is studied classically. We assume that randomne...