Topological inhomogeneity gives rise to spectral anomalies that can induce Bose-Einstein condensation (BEC) in low-dimensional systems. These anomalies consist in energy regions composed of an infinite number of states with vanishing weight in the thermodynamic limit (hidden states). Here we present a rigorous result giving the most general conditions for BEC on complex networks. We prove that the presence of hidden states in the lowest region of the spectrum is the necessary and sufficient condition for condensation in low dimension (spectral dimension (d) over bar less than or equal to 2), while it is shown that BEC always occurs for (d) over bar > 2.
Topology, hidden spectra and Bose-Einstein condensation on low-dimensional complex networks
Vezzani A
2002
Abstract
Topological inhomogeneity gives rise to spectral anomalies that can induce Bose-Einstein condensation (BEC) in low-dimensional systems. These anomalies consist in energy regions composed of an infinite number of states with vanishing weight in the thermodynamic limit (hidden states). Here we present a rigorous result giving the most general conditions for BEC on complex networks. We prove that the presence of hidden states in the lowest region of the spectrum is the necessary and sufficient condition for condensation in low dimension (spectral dimension (d) over bar less than or equal to 2), while it is shown that BEC always occurs for (d) over bar > 2.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
