%0 Journal Article %1 Hinczewski_2007 %A Hinczewski, Michael %D 2007 %K critical_exponent, ising_model, network, phase_transition, power_law scale_free_network, xy_model, %N 061104 %T Griffiths singularities and algebraic order in the exact solution of an Ising model on a fractal modular network %V 75 %X We use an exact renormalization-group transformation to study the Ising model on a complex network composed of tightly knit communities nested hierarchically with the fractal scaling recently discovered in a variety of real-world networks. Varying the ratio K / J of intercommunity to intracommunity couplings, we obtain an unusual phase diagram: at high temperatures or small K / J we have a disordered phase with a Griffiths singularity in the free energy, due to the presence of rare large clusters, which we analyze through the Yang-Lee zeros in the complex magnetic field plane. As the temperature is lowered, true long-range order is not seen, but there is a transition to algebraic order, where pair correlations have power-law decay with distance, reminiscent of the XY model. The transition is infinite order at small K/J and becomes second order above a threshold value (K/J)_m. The existence of such slowly decaying correlations is unexpected in a fat-tailed scale-free network, where correlations longer than nearest neighbor are typically suppressed.

@article{Hinczewski_2007, abstract = {We use an exact renormalization-group transformation to study the Ising model on a complex network composed of tightly knit communities nested hierarchically with the fractal scaling recently discovered in a variety of real-world networks. Varying the ratio K / J of intercommunity to intracommunity couplings, we obtain an unusual phase diagram: at high temperatures or small K / J we have a disordered phase with a Griffiths singularity in the free energy, due to the presence of rare large clusters, which we analyze through the Yang-Lee zeros in the complex magnetic field plane. As the temperature is lowered, true long-range order is not seen, but there is a transition to algebraic order, where pair correlations have power-law decay with distance, reminiscent of the XY model. The transition is infinite order at small K/J and becomes second order above a threshold value (K/J)_m. The existence of such slowly decaying correlations is unexpected in a fat-tailed scale-free network, where correlations longer than nearest neighbor are typically suppressed.}, added-at = {2010-05-10T08:12:01.000+0200}, author = {Hinczewski, Michael}, biburl = {https://www.bibsonomy.org/bibtex/205e71ddb49db47b5ef129d33442b3b5c/dhruvbansal}, file = {/home/dhruv/projects/work/papers/papers/Hinczewski_2007.pdf}, interhash = {ac2aadde464973a3475f4ce57c9310d4}, intrahash = {05e71ddb49db47b5ef129d33442b3b5c}, keywords = {critical_exponent, ising_model, network, phase_transition, power_law scale_free_network, xy_model,}, number = 061104, read = {nil}, timestamp = {2010-05-10T08:12:03.000+0200}, title = {Griffiths singularities and algebraic order in the exact solution of an Ising model on a fractal modular network}, volume = 75, year = 2007 }